KR101911397B1 - Portable vibrating machine - Google Patents

Abstract

The portable vibrating device of the present invention includes: a main body having a first outer surface to a fourth outer surface; And a controller for controlling the output of the ultrasonic signal by using the level of the output frequency, and a control unit for controlling the output of the ultrasonic signal based on the level of the output frequency, module; An operation interface disposed on the first outer surface and electrically connected to the drive module, the operation interface providing a signal to the drive module that can output or block the ultrasonic signal; An input / output interface disposed on the second outer surface and electrically connected to the driving module, the input / output interface providing the AC voltage to the driving module, receiving the ultrasonic signal from the driving module, and supplying the ultrasonic signal to the handpiece; And an adjustment signal which is disposed on the third outer surface and is electrically connected to the drive module and adjusts the level of the output frequency to the drive module, And a display interface for receiving and displaying a drive status signal.

Description

[0001] PORTABLE VIBRATING MACHINE [0002]

The present invention relates to a portable vibrating device, and more particularly, to a portable vibrating device capable of removing rubber and foreign substances introduced into a vent device having a spring in a tire mold.

Generally, when the semi-finished tire molding process is completed in the tire manufacturing process, a vulcanizing process is performed to make the green tire as a final finished product. The green tire produced in a raw state is vulcanized in a high-temperature high-pressure vulcanizing mold to complete the final tire. Here, the vulcanizing mold is composed of a mold part and a braider for pressing the tire to the mold, and the inner side surface of the mold is provided with a vent hole for discharging the air existing between the tire and the mold to the outside of the mold.

These vent holes are vented together with the rubber of the green tire by the air pressure as well as the vulcanization pressure to form the vent rubber on the surface of the finished tire.

Accordingly, a trimming process for removing the vent rubber from the finished green tire is essentially performed. Since such a trimming process causes a decrease in productivity and productivity, most of the vulcanization molds in most tire production or production lines are equipped with venting devices.

The venting device (not shown) used various equipment for cleaning and maintenance. Various devices include a vibrating device.

The conventional vibrating device includes a main body, a handpiece 210 equipped with a tip 230, a power line, and a foot switch. The conventional vibrating device has a disadvantage that when a power source is connected to the main body, a distance between the power line, the foot switch, and the work space necessitates that a co-worker lifts the device from the side and operates with the foot switch.

As described above, since the conventional vibrating device uses a separate power source, there is a limitation in distance, and there is a limitation in that it is necessary to work with one set of two persons in order to operate the footswitch.

[Patent Document 1] Korean Utility Model Application Publication No. 20-2016-0002501 (entitled "Venting Apparatus for Tire Valves")

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a portable vibrating device capable of improving the safety and convenience of an operator with equipment for removing rubber and foreign substances introduced into a venting device during tire production The purpose is to provide.

It is another object of the present invention to provide a portable vibrating device capable of directly controlling the output in various stages in order to minimize damage to the mold and vent device.

According to an aspect of the present invention, there is provided a portable vibrating device including: a main body having a first outer surface to a fourth outer surface; And a controller for controlling the output of the ultrasonic signal by using the level of the output frequency, and a control unit for controlling the output of the ultrasonic signal based on the level of the output frequency, module; An operation interface disposed on the first outer surface and electrically connected to the drive module, the operation interface providing a signal to the drive module that can output or block the ultrasonic signal; An input / output interface disposed on the second outer surface and electrically connected to the driving module, the input / output interface providing the AC voltage to the driving module, receiving the ultrasonic signal from the driving module, and supplying the ultrasonic signal to the handpiece; And an adjustment signal which is disposed on the third outer surface and is electrically connected to the drive module and adjusts the level of the output frequency to the drive module, And a display interface for receiving and displaying a drive status signal of the portable vibrating device.

According to an embodiment of the present invention, the driving module includes a power module for converting the AC voltage into the DC voltage and storing the AC voltage, and for supplying or blocking the stored DC voltage; A main module which is electrically connected to the power module and receives the DC voltage to generate the output frequency and adjusts the output of the ultrasonic signal by using the level of the output frequency; And a display module that is electrically connected to the main module and that checks and displays an abnormality of the driving module from the main module.

According to an embodiment of the present invention, the power module further includes: a voltage conversion unit that receives the AC voltage and converts the AC voltage into the DC voltage; A battery unit for receiving and storing the direct current voltage from the voltage converting unit; A voltage adjusting unit for receiving and adjusting the DC voltage stored in the battery unit and supplying an output adjustment signal to the main module; And a power switch for controlling the DC voltage stored in the battery unit to be supplied to or disconnected from the main module or the display module.

According to an embodiment of the present invention, the DC voltage may include a driving voltage for operating the driving module and an output voltage capable of generating the ultrasonic signal.

According to an embodiment of the present invention, the battery unit may include a main battery and an auxiliary battery, the main battery storing the driving voltage, and the auxiliary battery storing an output voltage.

According to an embodiment of the present invention, the main module analyzes the driving voltage supplied to the driving module, the driving temperature generated when the driving module is driven, and the output voltage controlling the output of the ultrasonic signal, ; An ultrasonic control unit for receiving the output voltage control signal from the main control unit and controlling the output frequency; An ultrasonic driving unit for receiving the output frequency controlled by the ultrasonic control unit and the output adjustment signal from the voltage adjusting unit to convert the ultrasonic signal into the ultrasonic signal and supplying the ultrasonic signal to the handpiece; An output feedback unit for sensing the ultrasonic signal output from the ultrasonic driving unit, converting the sensed ultrasonic signal into an output feedback signal, and supplying the sensed ultrasonic signal to the main control unit; And an operation switch for supplying an ultrasonic turn-on signal for controlling the ultrasonic signal to be outputted from the handpiece or an ultrasonic turn-off signal for blocking the ultrasonic signal outputted from the handpiece to the main control unit have.

According to an embodiment of the present invention, the driving voltage supplied to the driving module and the driving temperature generated while the driving module operates may be checked, and the driving voltage may be checked based on the checked driving voltage check signal and the driving temperature And a voltage temperature sensing unit for supplying the main control unit with a checked driving temperature check signal.

According to an embodiment of the present invention, the display module may include an LED unit electrically connected to the main module, the LED unit checking an abnormality of the drive module from the main module, And an output voltage adjustment unit for supplying an adjustment signal to the main control unit.

The portable vibrating device according to an embodiment of the present invention can easily carry the portable unit and the handpiece with the portable unit, thereby improving the convenience of the operation.

In addition, the portable vibrating device according to an embodiment of the present invention can remove the electric wire connected to the conventional body by mounting the battery inside the body portion, thereby making it possible to improve the restriction on the work space, Ease also can be improved.

In addition, the portable vibrating device according to an embodiment of the present invention has an effect of minimizing damage to the mold and the vent device by directly adjusting the output of the ultrasonic signal output to the handpiece in several steps.

1 is a view for explaining a portable vibrating device according to an embodiment of the present invention.
FIG. 2 is a view for explaining the inside of a portable vibrating device according to an embodiment of the present invention.
3 to 5 are views for explaining interfaces disposed on the outer surface of the main body according to an embodiment of the present invention.
6 is a view for explaining a display window according to an embodiment of the present invention.
7 is a view for explaining a handpiece according to an embodiment of the present invention.
8 is a view for explaining a handpiece according to another embodiment of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a portable vibrating device 100 of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, a portable vibrating device 100 according to an embodiment of the present invention includes a main body 110, an input / output interface 114a, a driving module 130, an operation interface 113a, 115a.

The main body 110 has a plurality of outer surfaces 111 to 116 and may be formed in a predetermined shape. The outer surfaces 111 to 116 may include a first outer surface 113 to a fourth outer surface 116, an upper surface 111 and a lower surface 112. The first outer surface 113 and the second outer surface 114 may be spaced apart in the longitudinal direction. The third outer surface 115 and the fourth outer surface 116 may be disposed between the first outer surface 113 and the second outer surface 114 and spaced laterally. The upper and lower surfaces may be disposed between the first outer surface 113 and the fourth outer surface 116 and spaced apart in the vertical direction. An operation interface 113a may be disposed on the first outer surface 113 of the main body 110. [ An input / output interface 114a may be disposed on the second outer surface 114 of the main body 110. FIG. The display interface 115a may be disposed on the third outer surface 115 or the fourth outer surface 116 of the main body 110. [ The driving module 130 may be disposed inside the body 110.

The input / output interface 114a includes a power switch 14a for turning on or turning off a driving voltage and an output voltage supplied to the main body 110, A power connector 14b and an ultrasonic connector 14c for supplying an ultrasonic signal to the handpiece 210. [

The driving module 130 includes a power module 131 for converting an AC voltage supplied from the outside into a DC voltage and storing the DC voltage, a main module 130 for controlling the DC voltage supplied from the power module 131 to adjust the size of the ultrasonic signal, And a display module 135 capable of displaying the status of the battery unit 133 and the battery unit 137. [

The operation interface 113a includes an operation switch 13 for supplying or cutting off an ultrasonic signal to the handpiece 210. [

The display interface 115a includes an LED unit 15b for displaying the state of the driving module 130 and the battery unit 137 and an output voltage adjusting unit 15a for adjusting the level of the output frequency supplied to the handpiece 210 ).

The handpiece 210 may be configured to output an ultrasonic signal supplied through the handpiece cable 250 to the outside. The handpiece 210 may include a body 211, a cable connection terminal 215, and a tip connection terminal 213 of the handpiece. The handpiece 210 can fasten the handpiece cable 250 to the cable connection terminal 215 and attach the tip 230 to the tip connection terminal 213. [ The handpiece 210 can receive the ultrasonic signal supplied from the ultrasonic driving unit 133c to be described later through the handpiece cable 250 and transmit the ultrasound signal to the tip 230. [

The tip 230 may output an ultrasonic signal to remove foreign matter or the like adhering to the vent device. A detailed description of the handpiece 210 and the tip 230 will be described later.

2, the driving module 130 according to an embodiment of the present invention may include a power module 131, a main module 133, and a display module 135.

The power module 131 is disposed inside the main body 110 and can convert an AC voltage supplied from the outside into a DC voltage. The power module 131 includes a voltage converter 131a, a battery unit 137 and a voltage adjuster 131b. The power module 131 includes a power switch 14a, Power SW by operating the switches SW1 and SW2 on and off.

The voltage converter 131a can convert an AC voltage supplied from the outside into a DC voltage. The voltage converting unit 131a receives the AC voltage and can convert the driving voltage into the output voltage, which is a DC voltage capable of generating an ultrasonic signal and a driving voltage, which is a DC voltage capable of operating the driving module 130. That is, the voltage converting unit 131a can convert the AC voltage (AC power) to a DC voltage (DC power) in accordance with the driving module 130. The voltage converting unit 131a may include a rectifying circuit that can serve as an adapter in the body 110. [ In addition, the voltage converting unit 131a may be omitted when a DC voltage (DC power source) capable of stably driving the driving module 130 from the outside is supplied.

The voltage conversion unit 131a may include a surge protection circuit (not shown) capable of interrupting a transient abnormal voltage that is generated or entered through a power cable for supplying an AC voltage. The voltage conversion unit 131a is provided with a surge protection circuit (not shown), so that it is possible to prevent malfunction of the software including various components and drive circuits disposed inside the drive module 130 in advance.

For reference, in this specification, one voltage converting unit 131a is exemplarily described, but it is obvious that the embodiments of the present invention are not limited thereto, and a plurality of voltage converting units 131a may be disposed. One voltage converting unit 131a may convert an AC voltage supplied from the outside into a driving voltage or an output voltage which is a DC voltage and supply the AC voltage to the battery unit 137 and the other voltage converting unit 131a may supply the battery unit 137 may be converted into a driving voltage or an output voltage.

The battery unit 137 is electrically connected to the voltage converting unit 131a and can receive and store the driving voltage and the output voltage from the voltage converting unit 131a. The battery unit 137 may store the driving voltage and the output voltage in a single battery in different storage spaces. Or the battery unit 137 may include a main battery capable of storing a driving voltage and a secondary battery capable of storing an output voltage. The main battery may be installed in an internal space of the main body 110 and may be disposed in an integrated manner, and the auxiliary battery may be detachably attached to the main body 110. The main battery and the auxiliary battery may be installed in an internal space of the main body 110 and may be disposed integrally or detachably from the main body 110.

The battery unit 137 described above may include a lithium ion battery having a rated voltage of 14.8 V / 2600 mAh. As described above, the battery unit 137 can be charged using the voltage conversion unit 131a or the external charging adapter by using the 14.8V lithium ion battery.

The voltage adjusting unit 131b is electrically connected to the battery unit 137 and may receive the output voltage from the battery unit 137 and adjust the output voltage according to the adjustment signal and the output feedback signal provided by the main module 133 . When the adjustment signal and the output feedback signal are provided, the voltage adjustment unit 131b may adjust the supplied output voltage to supply the output adjustment signal to the main module 133 so as to correspond thereto. The output adjustment signal may be defined as an adjusted output voltage based on the adjustment signal and the output feedback signal.

The voltage adjusting unit 131b may be operated by receiving the driving voltage from the battery unit 137. [

The power switch 14a (Power SW) can control the driving voltage and the output voltage stored in the battery unit 137 to be supplied to or cut off from the driving module 130. The power switch 14a is electrically connected between the battery unit 137 and the driving module 130 to control the driving voltage to be supplied to or cut off from the driving module 130. When the power switch 14a is turned on, the driving voltage stored in the battery unit 137 can be supplied to the driving module 130. When the power switch 14a is turned off, It is possible to shut off the driving voltage supplied to the driving circuit.

The power switch 14a is electrically connected between the battery unit 137 and the voltage adjusting unit 131b to control the voltage adjusting unit 131b to supply or cut off the output voltage. When the power switch 14a is turned on, the output voltage stored in the battery unit 137 can be supplied to the voltage adjusting unit 131b. When the power switch 14a is turned off, the driving voltage supplied to the voltage adjusting unit 131b is cut off .

The main module 133 may control the DC voltage supplied from the power module 131 to adjust the output of the ultrasonic signal. Here, the output of the ultrasonic signal may include the magnitude or intensity of the ultrasonic signal.

The main module 133 includes a main control part 133a, an ultrasonic control part 133b, an ultrasonic driving part 133c, an output feedback part 133d and a voltage temperature sensing part 133e. And is operated by the ON and OFF operations of the operation switches 13 and SW provided in the operation interface 113a.

The main control unit 133a can control the driving module 130 as a whole. The main controller 133a controls the driving module 130 to drive the driving module 130 until the driving module 130 receives the driving voltage, the driving temperature generated when the driving module 130 is driven, the output voltage for controlling the output of the ultrasonic signal, Can be controlled as a whole. The main control unit 133a controls the ultrasonic signal to be generated in accordance with on / off signals of the operation switches 13 and SW to be described later.

When the ultrasonic turn-on signal is supplied, the main controller 133a can receive the output feedback signal, the drive voltage check signal, the drive temperature check signal, and the like. The output feedback signal is a signal obtained by sensing the ultrasonic signal output from the ultrasonic driving unit 133c and converting the sensed ultrasonic signal so that the main control unit 133a can analyze the ultrasonic signal. The driving voltage check signal is a signal obtained by checking the driving voltage supplied to the driving module 130 in real time. The drive temperature check signal is a signal obtained by checking in real time the drive temperature generated while the drive module 130 operates.

The main control unit 133a receives the output feedback signal, the drive voltage check signal, the drive temperature check signal, and the like, and can analyze them as a whole. The main controller 133a supplies an output voltage control signal for controlling the output voltage to the ultrasonic controller 133b and supplies an adjustment signal for adjusting the output voltage to the voltage adjuster 131b, And can supply a driving state signal that can check the driving state of the module 130. [ Here, the driving status signal may include data regarding the driving voltage for driving the driving module 130, the driving temperature generated by the driving module 130, and the internal temperature of the main body 110.

The ultrasonic wave controller 133b may receive the output voltage control signal from the main controller 133a to control the output frequency and supply the controlled frequency to the ultrasonic wave driver 133c. 2, the ultrasonic wave controller 133b is separated from the main controller 133a, but the present invention is not limited thereto. The ultrasonic wave control unit 133b is incorporated in the main control unit 133a and can directly control the ultrasonic wave driving unit 133c.

The ultrasonic driving unit 133c receives the output control signal from the ultrasonic control unit 133b and the output adjusting signal from the voltage adjusting unit 131b and can amplify the output frequency and the output adjusting signal to convert the ultrasonic signal into the ultrasonic signal. The ultrasonic driving unit 133c can output the ultrasonic signal to the handpiece 210. [

The output feedback unit 133d may sense the ultrasonic signal output from the ultrasonic driving unit 133c and convert it into an output feedback signal that can be analyzed by the main control unit 133a. The output feedback unit 133d can adjust the output of the ultrasonic signal in real time by supplying the output feedback signal to the main controller 133a in real time so that the ultrasonic signal can be stably supplied to the handpiece 210. [

The voltage temperature sensing unit 133e can supply a driving voltage check signal that checks the driving voltage supplied to the driving module 130 in real time to the main control unit 133a, To the main control unit 133a, a drive temperature check signal that is checked in real time.

The voltage temperature sensing unit 133e can check whether the driving module 130 is abnormal by checking the driving voltage or the driving temperature in real time. The driving voltage check signal or the driving temperature check signal may include error data on whether the driving module 130 is abnormal or not.

The voltage temperature sensing unit 133e may include a constant temperature unit that dissipates heat generated in the main body 110 to the outside. The thermostatic end may include a thermo-electric control (TEC) or a plurality of cooling fans. While the temperature of the inside of the main body 110 is sensed in real time, the internal temperature of the main body 110 may be substantially constant Within the range.

The voltage temperature sensing unit 133e may display a temperature error on the LED unit 15b for a predetermined time when the internal temperature of the main body 110 is 75 degrees or higher and then stop the driving module 130 have. Here, the predetermined time may be set to 5 seconds or more and 15 seconds or less.

The operation switches 13 and SW may supply an ultrasonic turn-on signal or an ultrasonic turn-off signal to the main controller 133a so that the ultrasonic signal can be output or interrupted.

The operation switches 13 and SW may be electrically connected to the main control unit 133a so as to output or interrupt the ultrasonic signal. When the operation switch 13 (SW) is turned on, an ultrasonic turn-on signal can be supplied to the main control unit 133a. The main controller 133a may control the ultrasound signal to be output through the tip 230 mounted on the handpiece 210 when the ultrasound turn-on signal is supplied. When the operation switch 13 (SW) is turned off, an ultrasonic turn-off signal can be supplied to the main control unit 133a. The main controller 133a may control the ultrasonic signal outputted through the tip 230 to be blocked when the ultrasonic turn-off signal is supplied.

As described above, the power module 131 and the main module 133 can drive the ultrasonic signal in a variable constant voltage manner and output the ultrasonic signal in a constant current mode in accordance with the load (output feedback signal) Can be corrected. Accordingly, the portable vibrating device 100 of the present invention can keep the output of the handpiece 210 constant by re-searching the output of the ultrasonic signal even if the output of the handpiece 210 drops rapidly.

The display module 135 may receive and display a driving status signal from the driving module 130 or adjust the level of the output voltage. The display module 135 blinks the LED unit 15b provided on the display interface 115a of the third outer surface 115 or transmits the adjustment signal of the output voltage adjustment unit 15a to the driving module 130 side.

The LED portion 15b may include an LED capable of emitting at least one or more different colors. The LED unit 15b may emit different colors according to the driving state signal.

The output voltage adjustment unit 15a can supply an adjustment signal to the main control unit 133a so as to adjust the level of the output frequency supplied to the handpiece 210. [ The output voltage adjusting unit 15a may adjust the level of at least one output frequency to finely adjust the ultrasonic signal output through the tip 230. [

3, the operation interface 113a of the present invention may be disposed on the first outer surface 113 of the main body 110. In FIG. The input / output interface 114a may be disposed on the front surface of the main body 110.

The operation interface 113a may be provided with an operation switch 13 (SW).

The operation switches 13, SW may be disposed in the central area of the operation interface 113a. The operation switches 13 and SW may be electrically connected to the main control unit 133a disposed inside the main body unit 110. [ The operation switch 13 (SW) can be turned on or off according to the time the button is pressed. The operation switch 13 (SW) can be turned on by pressing the button for a first time. Here, the first time may be 2 to 4 seconds. The operation switch 13 (SW) can be turned off by pressing the button shorter than the first time in the turned-on state.

When the operation switches 13 and SW are turned on, an ultrasonic signal can be output to the outside through the tip 230 mounted on the handpiece 210. When the operation switches 13 and SW are turned off, Can be blocked.

However, the present invention is not limited to this, and the operation switch 13, SW may be turned on or turned off in various manners, for example, . In other words, the operation switch 13 (SW) can be any switch capable of switching on or off.

4, the input / output interface 114a of the present invention may be disposed on a second outer surface 114 of the main body 110. In FIG. The input / output interface 114a may be disposed on the rear surface of the main body 110.

The input / output interface 114a may include a power switch 14a (Power SW), a power connector 14b, and an ultrasonic connector 14c.

The power switch 14a (Power SW) may be disposed above the input / output interface 114a. The power switch 14a may be electrically connected to the battery unit 137, the driving module 130, and the voltage adjusting unit 131b disposed in the main body 110. [ The power switch 14a (Power SW) can be operated to turn on or off. When the power switch 14a is turned on, the driving voltage and the output voltage can be supplied to the driving module 130. When the driving module 130 is turned off, the driving voltage and the output voltage can be cut off.

The power connector 14b is disposed below the input / output interface 114a and may be disposed apart from the power switch 14a (Power SW) in the vertical direction. The power source connector 14b may be formed to insert an external power source terminal. The power connector 14b may be electrically connected to the battery unit 137 and the voltage conversion unit 131a disposed in the main body 110. [ A charging path can be formed while the external power terminal is fastened to the power connector 14b. The charging path may be configured to flow through the external power terminal, the power connector 14b, the voltage converting portion 131a, and the battery portion 137. The power source can be converted from an AC voltage to a DC voltage through the charging path and charged in the battery unit 137.

The ultrasonic connector 14c is disposed below the input / output interface 114a and may be disposed apart from the power switch 14a (Power SW) in the left-right direction. The ultrasonic connector 14c may be formed such that the handpiece cable 250 is inserted. The ultrasonic connector 14c may be electrically connected to the ultrasonic driver 133c disposed inside the body 110. [ The ultrasonic connector 14c can form an ultrasonic output path while one end of the handpiece cable 250 is inserted. The handpiece cable 250 may be a cable that electrically connects the handpiece 210 and the ultrasonic connector 14c. One end of the handpiece cable 250 may be fastened to the handpiece 210 and the other end thereof may be fastened to the ultrasonic connector 14c.

The ultrasonic output path may be configured to flow through the ultrasonic wave driving unit 133c, the ultrasonic connector 14c, the handpiece cable 250, the handpiece 210, and the tip 230. The ultrasonic signal is output to the outside through the ultrasonic output path, and the foreign substance or the like adhering to the vent device can be removed.

Referring to FIG. 5, the display interface 115a of the present invention may be disposed on the third outer surface 115 or the fourth outer surface 116 of the main body 110. The display interface 115a may be disposed on the left or right side of the main body 110. [

The display interface 115a may include an output voltage adjusting unit 15a and an LED unit 15b.

The output voltage adjusting unit 15a may be disposed in the central area of the display interface 115a. The output voltage adjusting unit 15a may be electrically connected to the main control unit 133a disposed inside the main body 110. [ The output voltage adjusting unit 15a can use the power level adjusting dial 15a1 to supply an adjustment signal for adjusting the level of the output frequency to the main control unit 133a. The output voltage adjustment unit 15a can adjust the ultrasonic signal by supplying an adjustment signal to the main control unit 133a. The power level adjustment dial 15a1 is adjusted from step 1 to step 10, and the output of the ultrasound signal can be adjusted according to steps 1 to 10. As described above, the output voltage adjusting unit 15a can easily remove foreign matter and the like while minimizing damage to the mold and the venting device by adjusting the output of the ultrasonic signal.

The LED unit 15b may include a driving LED 15b1 that can display the state of the driving module 130 and a battery LED 15b2 that can display the state of the battery unit 137. [

The driving LED 15b1 is disposed on the upper side of the display interface 115a and can be disposed near the operation interface 113a. The battery LED 15b2 may be disposed on the lower side of the display interface 115a and be disposed apart from the drive LED 15b1 in the vertical direction.

The driving LED 15b1 and the battery LED 15b2 may be electrically connected to the main control unit 133a disposed inside the main body 110. [ The drive LED 15b1 and the battery LED 15b2 may receive a drive status signal from the main controller 133a. The driving LED 15b1 and the battery LED 15b2 can emit different colors according to the driving state signal. That is, the driving LED 15b1 and the battery LED 15b2 display different colors according to the state of the driving module 130 or the state of the battery, so that the operator can easily check their states.

The battery LED 15b2 may be divided into five levels according to the state of the voltage of the battery unit 137. [ First, in the first step, the battery unit 137 is normally charged. In the first step, the battery unit 137 may be charged with a voltage of 50% or more. The handpiece 210 is operable. In the second stage, the voltage charged in the battery unit 137 is insufficient. In the second step, the battery unit 137 may be charged with a voltage of 30% or more and 50% or less. The handpiece 210 is operable. In the third step, a voltage charged in the battery unit 137 is required. In the third step, the battery unit 137 may be charged with a voltage of 10% or more and 30% or less. The handpiece 210 is operable. In the fourth step, the voltage charged in the battery unit 137 is discharged. In the fourth step, the battery unit 137 may be charged with a voltage of 1% or more and 10% or less. The operation of the handpiece 210 does not operate normally. In the fifth step, the voltage charged in the battery unit 137 is fully discharged. In the fifth step, the battery unit 137 may be completely discharged. The handpiece 210 can not be operated.

The operating states of the battery LED 15b2 and the driving LED 15b1 in the present invention will be described with reference to Table 1.

Operating state LED display Explanation RUN BAT Power OFF Power SW OFF OFF OFF Power switch OFF state External Power
Terminal connection Power SW ON OFF ON (Y) When external power terminal is connected Active ON (G) ON (Y) Power ON Power SW ON OFF ON (G) When the power switch is turned on (Step 1)
Handpiece operation possible Battery part
lack Power SW ON OFF ON (R) RED on, low battery warning (2 levels), handpiece ready Active ON (G) ON (R) Battery part
Requires charging Power SW ON OFF ON (R, B) RED blinking, state requiring battery charge (step 3), handpiece operation possible Active ON (G) ON (R, B) Battery part
Discharge Power SW ON OFF ON (R, B) RED blinks off, battery is discharged (4th step), handpiece does not operate until power off Active ON (G) ON (R, B) Battery part
Full discharge Power SW ON ON (R, B) ON (R, B) RED blinks and turns off, the battery is fully discharged (step 5), the handpiece does not work Handpiece movement Active ON (G) ON (G) Handpiece operation status Handpiece operation error Active ON (R, B) ON (G) Handpiece operation error status Temperature error Power SW ON or in operation ON (Y, B) ON (G) Internal temperature error status Drive module
error Power SW ON OFF ON (Y, B) Drive module (initial system) Error status

In Table 1, "OFF" means that the LED is off, ON (Y) means that the yellow (yellow) LED is lit, ON (G) means that the green (R) means that the red (red) LED is lit. ON (R, B) means that the red (red) LED is blinking, and ON (Y, B) means that the yellow (yellow) LED is blinking.

As shown in Table 1, according to the present invention, as at least one of the battery LED 15b2 and the drive LED 15b1 is turned on, blinked, and turned off, The state of the driving module 130 can be checked.

Although the LED unit 15b includes the driving LED 15b1 and the battery LED 15b2 in FIG. 5 and Table 1, the present invention is not limited thereto. The LED unit 15b may be disposed as a display window 25b as shown in FIG. A charge display window 25b1 for displaying the charged state of the battery unit 137 in a digital or analog manner to display a charged amount of the battery unit 137, an internal temperature of the body unit 110, A temperature display window 25b2 capable of displaying the temperature of the main body 130 or the internal temperature of the main body 110, an output voltage used to display a driving voltage supplied to the driving module 130, or an ultrasound signal And a voltage display window 25b3. The display windows 25b1 to 25c may be arranged as a plurality of display windows 25b or as a single display window 25b. The display window 25b is divided to divide the charged amount of the battery unit 137, the temperature of the driving module 130, the internal temperature of the main body 110, the driving voltage, and the output voltage into the single display window 25b It can be displayed separately or sequentially displayed.

The above-described display window 25b may be a touch screen operated by a hand touch of an operator.

As described above, when at least one display window 25b is disposed, the operator can quickly and accurately check various information such as the state of the battery unit 137 or the state of the drive module 130, It is possible to easily detect whether or not an abnormality has occurred.

Referring to FIG. 7, the handpiece 210 according to an embodiment of the present invention may include a hand piece body 211, a cable connection terminal 215, and a tip connection terminal 213.

The body 211 of the handpiece may be formed in a predetermined cylindrical shape. The body 211 of the handpiece can be bent at the outer surface of the body 211 so that the operator can easily grasp it. Further, the body 211 of the handpiece may further include a non-slip pad for preventing an operator's hand from sliding arbitrarily on the outer surface.

The body 211 of the handpiece may be formed so that the tip connecting terminal 213 is disposed at one end and the cable connecting terminal 215 is disposed at the other end. Although the body 211 of the handpiece is not shown inside, the cable connection terminal 215 and the tip connection terminal 213 may be electrically connected to each other.

The tip connecting terminal 213 may be formed such that the tip 230 is mounted or separated. The tip connection terminal 213 is electrically connected to the tip 230 so that ultrasonic signals can be easily output through the tip 230. The tip connection terminal 213 may be provided with a release preventing portion such that the tip 230 is not disengaged arbitrarily while the tip 230 is mounted.

The cable connection terminal 215 may be formed to fasten or separate the handpiece cable 250. The cable connection terminal 215 may be electrically connected to the handpiece cable 250 and may be configured to transmit ultrasonic signals to the handpiece 210.

The tip 230 may include a tip mount 233 mounted on the tip connection terminal 213 while fixing the output line 231 and the output line 231 for outputting ultrasonic signals. The output line 231 is disposed at one end of the tip mounting portion 233 and may be formed to be bent at a predetermined angle. By bending the output line 231 of the tip 230 at a predetermined angle in this way, the vibrations transmitted to the mold can be made different, thereby minimizing damage to the spring vent device.

In the portable vibrating device 100 of the present invention, the output frequency characteristic may vary depending on the shape of the tip 230. In consideration of this, the portable vibrating apparatus of the present invention can search for an optimal frequency while varying the output frequency from 24 KHz to 32 KHz, and output the corresponding ultrasonic signal. Thus, by outputting the ultrasonic signal corresponding to the optimum frequency, rubber and foreign substances introduced into the spring vent device can be removed.

As described above, the portable vibrating device 100 according to the present invention is configured such that the output line 231 of the tip 230 is bent at a predetermined angle, and an ultrasonic signal corresponding to the optimum frequency is output, It is possible to completely remove rubber and foreign substances introduced into the spring vent device.

8, a handpiece 310 according to another embodiment of the present invention includes a body 311, a cable connection terminal 315, a tip connection terminal 313, and operation switches 33 and SW .

8, the details of the body 311, the cable connection terminal 315 and the tip connection terminal 313 of the handpiece are the same as those of the body 211 of the handpiece, the cable connection terminal 215, Terminal 213, and will not be described here.

The operation switches 33, SW may be disposed on the outer surface of the body 311 of the handpiece. The operation switches 33 and SW can be disposed within a range in which the index finger of the operator can move when the operator holds the handpiece 310. [ The operation switch 33, SW can output an ultrasonic signal while the index finger of the operator is clicked or touched, and can block the output ultrasonic signal if it is not clicked or touched. The handpiece 310 can control the output of the ultrasonic signal more easily and stably by arranging the operation switches 33, SW on the outer surface.

The portable vibrating device 100 of the present invention described so far can drive ultrasonic signals or control ultrasonic signals in a variable constant voltage and constant current manner. The portable vibrating device 100 of the present invention analyzes the characteristics of the tip 230 mounted on the handpiece 210 to convert the ultrasonic signal to an optimal output frequency and transmits the ultrasonic signal to the handpiece 210 And output through the tip 230. In addition, the portable vibrating device of the present invention can easily adjust the output of the ultrasonic signal by using the power level adjustment dial 15a1 disposed on the display interface 115a.

The embodiments of the portable vibrating device 100 of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. You will know the point. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

13, 33: Operation switch 100: Portable vibrating device
110: main body 113a: operation interface
114a: Input / output interface 115a: Display interface
130: drive module 131: power module
133: main module 135: display module
137: Battery section 210, 310: Handpiece
211,311: Body 213,313: Tip connection terminal
215,315: Cable connection terminal 230: Tip
250: Handpiece cable

Claims (8)

An operation switch (not shown) formed in a hexahedron shape having an upper surface and a lower surface and a first outer surface 113 to a fourth outer surface 116 and disposed on the first outer surface 113 and controlling the output and blocking of the ultrasonic signal And an ultrasonic transducer disposed on the second outer surface and adapted to provide AC voltage and to apply ultrasonic signal to the main module or display module and the handpiece. Output interface 114a that is disposed on the third outer surface 115 and that adjusts the level of the output frequency and controls the operation of the driving module 130. The power supply switch 14a includes a power switch 14a for interrupting the DC voltage of the battery module 137, A main body 110 having a display interface 115a for displaying a driving state; A main battery disposed in the main body 110 and adapted to convert an AC voltage to a DC voltage, a main battery for storing a driving voltage for the driving module 130, and an auxiliary battery for storing an output voltage for an ultrasonic signal. And a voltage adjusting unit 131b for adjusting the DC voltage of the battery unit 137 and applying the DC voltage to the main module 133. The power module 131 includes a power module 131, A main module 133 for adjusting the output of the ultrasonic signal to an output frequency using a DC voltage while being electrically connected to the main module 133, an LED unit 15b for displaying an abnormality signal in a state of being electrically connected to the main module 133, A driving module 130 having a display module 135 for displaying an output voltage adjusting unit 15a for applying an output frequency adjustment signal to the main control unit 133a on the display interface 115a; A main controller 113a for analyzing and controlling the output voltage when operating the ultrasonic driver 133c, which outputs the driving temperature and the ultrasonic signal generated when the driving module 130 is operated with the driving voltage, as the output voltage; An ultrasonic wave control unit 133b for controlling an output frequency by a signal of the main control unit 133a; An ultrasonic driver 133c for applying an ultrasonic signal to the handpiece 210 when an output frequency controlled by the ultrasonic controller 133b and an output voltage adjusted by the voltage adjuster 131b are applied; And an output feedback unit 133d that feeds the ultrasonic signal output from the ultrasonic driving unit 133c to the voltage adjusting unit 131b and provides the feedback signal to the main control unit 133a through the ultrasonic control unit 133b. In the rating apparatus 100,
The main module 133,
A driving voltage check signal and a driving temperature check signal that senses the driving temperature of the driving module 130 operating with application of the driving voltage and the driving voltage applied to the driving module 130 are provided to the main controller 133a, And a voltage temperature sensing unit (133e) for precisely controlling the ultrasonic wave control unit (133b) for controlling the ultrasonic wave oscillation unit (133c). delete delete delete delete delete delete delete

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