KR0133891Y1 - Apparatus for mode sensing of vcr deck - Google Patents

Abstract

The present invention relates to a mode recognition device of a VCR deck.

The present invention provides a loading motor for loading a cassette tape, a worm gear wheel for transmitting the power of the loading motor, and a gear master for rotating the rotor of the mode switch unit to a predetermined position according to the rotation of the worm gear wheel. In the mode recognition device of the VCR deck provided, the gear master is provided with a plurality of projections along the circumference, the predetermined switching device for switching operation by pushing the projections on the path that the plurality of projections move the projections And a microprocessor which is installed opposite to and recognizes a predetermined mode by the operation of the switching device.

Therefore, it is possible to reduce the labor cost due to the simplification of the structure, and the cost can be reduced, and the soldering parts are also greatly reduced to two places, which prevents the occurrence of short circuit due to the soldering parts as in the prior art, thereby improving the reliability and quality of the product. I can improve it more.

Description

Mode Recognition Device of VCR Deck

1 is a partial excerpt of a mode switch section of a conventional VCR.

2 is a rear structure diagram of the rotor in the mode switch unit shown in FIG.

3 is a structural diagram of a base plate in the mode switch unit shown in FIG.

4 is a mode and terminal combination scheme of a conventional VCR.

5 is a schematic block diagram of a mode recognition device for a VCR deck according to the present invention.

6 is a state diagram showing the mutual relationship between the protrusion and the push switch when the mode is ON in the mode recognition device of the VCR deck according to the present invention.

7 is a state diagram showing the mutual relationship between the protrusion and the push switch when the mode OFF in the mode recognition device of the VCR deck according to the present invention.

8 is an explanatory diagram showing the relationship between each mode and clock waveform time in the mode recognition apparatus of the VCR deck according to the present invention.

* Explanation of symbols for main parts of the drawings

10: (conventional) mode switch unit 11: rotor

12 contactor 13 base plate

14 terminal 16 microprocessor

50: mode recognition device (invented) 51: loading motor

52: worm 53: worm gear wheel

54: gear master 55: push switch

56 microprocessor 54a-54g projection

55a: pressing member 55b: switching member

The present invention relates to a mode recognition device for a VCR deck, and more particularly, to a mode recognition device for a VCD deck whose structure is improved to recognize a mode using a single switch. .

In general, a cassette loading apparatus for loading a cassette into a VCR (Video Cassette Tape Recorder), which is a device for reproducing and recording information using a Video Tape Cassette (hereinafter referred to simply as a cassette) as an intermediary means. And a deck mechanism for driving a tape to pull out and drive the tape in the loaded cassette. In such a VCR, when the cassette is first loaded, the cassette is moved from the inlet to the deck mechanism in the VCR, and immediately after the cassette is seated in the deck mechanism, the tape is withdrawn from the cassette and loaded into the head drum. After this loading, the corresponding operation is performed by the mode switch of playback or recording selected by the user.

1, 2 and 3 of the accompanying drawings show an extract of a mode switch section in such a conventional VCR, where FIG. 1 is a plan view of the mode switch section in an assembled state, and FIG. 2 is a rear view of the rotor. 3 is a structural diagram of a base plate.

Referring to these, the mode switch unit 10 has a disk-shaped rotor 11 made of synthetic resin so as to be rotatably fixed to the fixed shaft 15, and four contact legs are provided on the rear surface of the rotor 11. A conductive metal contactor (12, see also FIG. 2) having a 12a is provided. In addition, a base plate 13 is installed below the rotor 11. Here, as shown in FIG. 3, the base plate 13 is provided with contact portions 13f, 13g, 13h, 13i, and 13j of a metal piece having a predetermined shape in contact with the contactor 12 on its upper surface. On one side thereof, a plurality of terminals 13a, 13b, 13c, 13d, and 13e connected to the contact parts 13f, 13g, 13h, 13i, and 13j are provided.

The mode switch portion of the conventional VCR deck having such a configuration is the contact portions 13f, 13g, 13h, 13i, 13j of the metal pieces on the upper surface of the contactor 12 and the base plate 13 according to the user's switch selection (playback or recording, etc.). The contact combination is performed, and through this, an electrical signal corresponding to a predetermined mode is transmitted to a microprocessor (16), which is a controller, to recognize a mode. This will be described in more detail with reference to FIG. 4.

4 is a reference table showing a mode and a terminal combination according to the conventional VCR.

Normally, the VCR has a basic configuration of 'EJECT', 'UNLOADING', 'RPS', 'STILL', 'PLAY', 'STOP' and 'FF / REW'. Such modes are constituted by a combination of the four terminals 13a, 13b, 13c, and 13d shown in FIG. 3 and contact with the common terminal 13e. That is, as in the reference table of FIG. 4, 'EJECT' is a 13d terminal and a common terminal 13e, 'UNLOADING' is a 13a, 13b terminal and a common terminal 13e, and 'RPS' is a 13a, 13c terminal and a common terminal ( 13e), 'STOP' is the 13c terminal and the common terminal 13e, 'FF / REW' is the 13c, 13d terminal and the common terminal 13e is in contact with each other, through which a predetermined electrical signal corresponding to each mode is The corresponding mode is recognized by the microprocessor which is a control unit.

However, the conventional mode switch has been pointed out as a problem that the manufacturing process is complicated, and the soldering part is large, and therefore, the occurrence of short is high. In addition, it is pointed out that another problem is that a large number of labor and parts are required to cause a high defect rate of the product, and that noise and malfunction are caused by short circuits in the sliding contact process between the contactor and the metal part of the contact part.

The object of the present invention is to provide a mode recognition device for a VCR deck that can reduce the number of labors by simplifying the structure and prevent malfunction of the VCR deck due to a short circuit. .

In order to achieve the above object, the mode recognition apparatus for a VCR deck according to the present invention includes a loading motor for loading a cassette tape, a worm and a worm gear wheel for transmitting power of the loading motor, and a rotation of the worm gear wheel. In the mode recognition device of the VCR deck having a gear master for rotating the rotor of the mode switch unit to a predetermined position, the gear master is provided with a plurality of protrusions along the circumference, the path of the plurality of protrusions to move A feature is that a predetermined switching device for switching operation by pushing the protrusion is provided to face the protrusion, and a microprocessor for recognizing a predetermined mode is provided by the operation of the switching device.

In this way, a plurality of protrusions and a single push switch for switching operation are used to recognize a predetermined mode, so that the work can be reduced due to the simplification of the structure, and the soldering point or the drastically reduced (2 in 10 conventional places). To prevent the occurrence of short circuits, resulting in cost reduction and quality improvement.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

5 is a schematic block diagram of a mode recognition device for a VCR deck according to the present invention.

Referring to this, the mode recognition device 50 of the VCR deck according to the present invention is provided with a forward and reverse rotational loading motor 51 for generating a rotational driving force for mode switching, the worm (worm) on the rotating shaft of the loading motor 51 (52) is fixed. The worm 52 is installed in engagement with the worm gear wheel (53), the worm gear wheel (53) is installed in engagement with the gear master (gear master) (54) again. In particular, on the rear surface of the gear master 54, a plurality of protrusions 54a to 54g constituting one switching mechanism according to the mode selected according to the features of the present invention are arranged along the circumference at predetermined intervals. Then, a push switch 55 is shown on the lower PCB 60 of the gear master 54, that is, at a predetermined portion of the path in which the protrusions 54a-54g rotate and move, as shown in FIGS. 6 and 7. Is installed. Here, the push switch 55 is composed of a pressing member 55a and a switching member 55b for interrupting a predetermined circuit by the pressing member 55a, and when the pressure applied to the pressing member 55a is removed. The pressing member 55a is returned by the elastic force of the switching member 55b. In addition, the microprocessor 56 which recognizes a predetermined mode by switching of the push switch 55 is electrically connected to the push switch 55 and is installed at a predetermined portion inside the deck. In particular, the microprocessor 56 counts a predetermined electrical clock waveform due to the switching operation of the push switch 55, converts a moving section to each mode in time and recognizes each mode. The program is in memory.

Then, the operation relationship of the mode recognition device of the VCR deck according to the present invention having the above configuration will be briefly described with reference to FIG. 5, FIG. 6, FIG. 7 and FIG.

First, when the loading motor 51 is driven in FIG. 5, the gear engaged with the worm gear wheel 53 engaged with the worm 52 and the worm 52 installed on the shaft of the loading motor 51 is engaged. The master 54 is also linked to rotate at the same time. Here, the loading motor 51 is programmed in the microprocessor 56 such that the gear master 54 operates only for a time set to rotate to a predetermined mode.

On the other hand, when the gear master 54 rotates as described above, the protrusions 54a-54g formed on the lower surface of the gear master 54 also rotate, so that any one of the protrusions is push switch as shown in FIG. The pressing member 55a of 55 is pressed. Then, the switching member 55b below the pressing member 55a is also pressed to be switched on. The predetermined electrical waveform signal generated thereby is counted by the microprocessor 56 to recognize the predetermined mode. That is, in the case of the 'UNLOAD' mode, when the user presses the 'EJECT' button on the deck selector switch, the loading motor 51 is operated so that the worm 52, the worm gear wheel 53, and the gear master 54 are operated. ) Is interlocked, and thus, the programming switch rotor 15 and the stator 16 serve to recognize the operating mode switched according to the rotational position of the master gear 14. In FIG. 2, the code MB is the main base frame.

On the other hand, the programming switch rotor 15 for mode recognition combined with the master gear 14 rotates together in accordance with the rotation of the master gear 14 to combine a plurality of mode signals formed in the programming switch stator 16. By recognizing the mode according to the conductive pattern (not shown) formed so as to provide the information of the operation mode to the microprocessor 17 that controls the entire mechanism including the motor 11. In addition, the microprocessor 17 is connected to a key input unit 18 which is selected and operated by a user, and operates the motor 11 according to the signal of the key input unit 18 and switches the state of the mechanism to the selected mode. When the motor 11 is stopped. As described above, the operating mode of the deck mechanism is detected by using a plurality of switching signals using the rotary type programming switch rotor 15 and the stator 16 for mode recognition, and the deck according to the combination of the plurality of switching signals. The mode of operation of the mechanism was determined and the switching of the mode of operation was controlled.

By the way, in such a conventional mode detection system, the number of modes detectable by a switching element is 2 ⁿ (n is an integer as a required number of switching elements), and the number of modes is limited. For example, using three switching elements, the number of detectable modes is limited to eight (= 2 ³ ). Therefore, when the number of switching elements is increased in order to overcome such a small number of limitations, the number of corresponding terminals must be increased accordingly, thereby making the deck structure more complicated, and prohibiting the occurrence of functional errors that are increased by a large number of switching elements. In order to reduce the accuracy of the switching element should be better, there is a problem that it is difficult to manufacture the mold of the mode switch.

Claims (3)

A mode recognition device for a VCR deck having a loading motor for loading a cassette tape, a worm and a worm gear wheel for transmitting the power of the loading motor, and a gear master for rotating the rotor of the mode switch unit to a predetermined position according to the rotation. In the gear master 54, a plurality of projections 54a-54g are provided along the circumference, and on the path along which the plurality of projections 54a-54g are moved by pushing the projections 54a-54g. A predetermined switching device 55 for switching operation is provided to face the projection, and the VCR deck is characterized in that it is provided with a microprocessor 56 that recognizes a predetermined mode by the operation of the switching device 55. Mode Recognition Device. According to claim 1, wherein the switching device 55 is in contact with the projections (54a-54g) by the pressing member (55a) for transmitting the pressing force of the projections (54a-54g) and by the pressing member (55a) And a switching member (55b) which is brought into contact with each other to be switched on. The mode recognition apparatus according to claim 1, wherein the microprocessor (56) has a mode recognition program for recognizing the mode by periodically counting the time between modes.