CS242227B1 - Electrical connection of tool control in dental units - Google Patents

Abstract

The solution relates to an electrical connection for controlling the instruments of a dental unit with switching and disconnecting means as well as means for opening the drive air for the instruments, the cooling air and water for the instruments and the air for blowing out from the individual instruments. The essence lies in the fact that the controlled elements (6, 7, .11,12,.., n-1) are powered by a source (1 ] of a small direct voltage, while their galvanic separation is ensured by diodes (4, 5, 9,10,.., n-lj connected in series with the controlled elements (6, 7,11,12,.., n-lj. When the tool is removed from the tool holder, the switch (.8, 13.. ., nj of the tool is switched on, the controlled elements (5,7,11, 12.. ., n-lj are switched on when the first or second switch (8,13,.., nj is switched on. By connecting, a large number of tools can be controlled independently, while the individual functions of the tools do not affect each other. The invention can be used to control individual tools in dental sets and to ensure the function of blowing out of the tools.

Description

BACKGROUND OF THE INVENTION The present invention relates to the electrical actuation of instruments in dental units with switch-on and switch-off means for opening the drive air for tools, cooling air and water for tools, and air for blowing out of individual tools.

The hitherto known dental unit controls are operated in such a way that the foot switch provides an electrical signal, preferably an alternating voltage of 220 V, which spins the respective solenoid yentil to open the drive air for the turbine, the turbine running after being removed from the tool holder. is a built-in microswitch to turn on the appropriate solenoid valve.

In a similar way, starting the micromotor is turned on where the micromotor speed controller turns on after removing the micromotor from the tool holder and turning on the foot switch, turning on the solenoid valve and opening the cooling air for the micromotor while turning on the micromotor speed controller. The condition of the micromotor is that the turbine is mounted in its tool holder. The mentioned electric control was controlled by only one micromotor and one turbine, without the possibility of triggering the blowing function of the tools.

Attaching additional tools would require complicated tool control by adding additional switching elements to carry out the correct switching of the desired tool. Another known connection is to control the dental unit according to MS. No. 5,944,938; 114 048, according to which the control circuit is formed by a low-voltage relay, which relay is controlled by a foot switch for the turbine and for a dental drill motor by a manual switch. Two microswitches connected as stair switches and controlled by the turbine postponement serve to switch the dental drill to the turbine and vice versa.

The disadvantage of the described dental unit controls is that only one micromotor and one turbine are operated, and the possibility of extending it with other tools would be a very complicated solution with a number of microswitches and relays. The connections do not allow the blow molding function.

The disadvantages of the aforementioned circuitry for operating dental units are solved by the circuitry according to the invention, characterized in that the first end of the first and second switches are fed from one source of unidirectional voltage, the second end of the first switch being connected to the first end of the first diode of the first tool. with a first end of the first diode of the second tool up to a first end of the first diode of the nth tool, wherein the second end of the first diode of the first tool is connected to the first end of the first actuated element of the first tool; the second tool through to the second end of the first diode of the nth tool being connected to the first end of the first actuated element of the nth tool, wherein the second end of the first actuated element of the first tool is connected to the first end of the first tool switch; in the first tool, the second end of the first actuated element of the second tool is connected to the first end of the switch of the second tool and simultaneously to the second end of the second actuated element of the second tool until the second end of the first actuated element of the nth tool is connected to the first end of the switch of the nth tool; simultaneously with the second end of the second actuated element of the nth tool, wherein the second end of the first tool switch is connected to the second field of the unidirectional voltage source, the second end of the second tool switch is connected to the second field of the unidirectional voltage a second field of the DC power supply, wherein the second end of the second switch is coupled to the first end of the second diode of the first tool, the first end of the second diode of the second tool to the first end of the second diode of the nth tool; konco m of the second actuated element of the first tool, the second end of the second diode of the second tool is connected to the first end of the second actuated element of the second tool until the second end of the second diode of the nth tool is connected to the first end of the second actuated element of the nth tool.

The advantage of wiring the electric control of the instruments in the dental units according to the invention is that the actuated elements are supplied with a small unidirectional voltage and their galvanic separation is ensured by the diodes connected in series with the actuated elements. When the tool is removed from the tool holder, the tool switch closes, the actuated elements switch when the first or second switch closes. By engaging, a large number of tools can be controlled independently, while the individual tool functions do not affect each other.

An example of wiring of the electric control of instruments in dental units is in the attached drawing.

The electrical wiring of the tool controls in the dental units constitutes a DC voltage source 1, one pole of which is connected to a first wiring input 14 to which the first ends of the first switch 2 and the second switch 3 are connected, the second end of the first switch 2 being connected to the first end of the first switch. diodes 4 of the first tool, with the first end of the first diode 9 of the second tool up to the first end of the first diode of the n-4 nth tool, the second end of the first diode 4 of the first tool being connected to the first end the second tool diode 9 is connected to the first end of the first actuated element 11 of the second tool until the second end of the first diode of the n-4 nth tool is connected to the first end of the first actuated element n-2 of the nth tool; the first tool is connected to the first end of the switch 8 of the first tool and at the same time to the second the second end of the second tool element 7 of the first tool, the second end of the first tool element 11 of the second tool is connected to the first end of the second tool switch 13 and simultaneously to the second end of the second tool element 12 of the second tool is connected to the first end of the n-th tool switch and at the same time to the second end of the second actuated n-1 tool element, the second end of the first tool switch 8 being connected to the second wiring input 15 to which the second pole of the power supply 1 the second end of the second tool switch 13 is connected to the second wiring input 15 to the second end of the nth tool switch n is connected to the second wiring input 15, the second end of the second switch 3 being connected to the first end of the second diode 5 of the first tool; with the first end of the second diode 10 of the second tool up to the first end of the second the n-3 of the n-th tool, wherein the second end of the second diode 5 of the first tool is connected to the first end of the second actuated element 7 of the first tool, the second end of the second diode 10 of the second tool is connected to the first end the second end of the second diode of the n-3 n-th tool is coupled to the first edge of the second actuated element n-1 of the n-th tool.

After connecting the DC power supply 1 to the first wiring input 14 and the second wiring input 15 and removing the first tool from the tool holder, the switch 8 of the first tool, which can be contact or non-contact, is closed. By switching on the first switch 2, the unidirectional voltage is applied via diode 4 to the first actuated element 6, which may be a solenoid valve, relay, semiconductor switch, etc., which switches and actuates the first tool, which may be a turbine, micromotor, etc. By switching on the second switch 3, the unidirectional voltage is applied via diode 5 to the second actuated element 7, which switches and performs the desired function, e.g. blowing out tool. In the same way, the other actuating elements 11, 12 to n-2, n-1 are actuated, which are actuated by switching on the tool switches 13 to n and switching on the first switch 2 and the second switch 3. The diodes 4, 5, 9, 10, to n-4, n-3, so that the individual actuators do not functionally interact with each other.

The wiring for electrical control of instruments in dental units according to the invention can be used to control individual instruments in dental units and to provide a blow-out function.

Claims (1)

SUBJECT Electrical wiring of instrument control in dental units, characterized in that the first pole of the DC power supply (1) is connected to a first wiring input (14) to which the first ends of the first switch (2) and the second switch (3) are connected; the end of the first switch (2) is connected to the first end of the first diode (4) of the first tool, the first end of the first diode (9) of the second tool to the first end of the first diode (n-4) of the nth tool; (4) the first tool is connected to the first end of the first actuated element (6) of the first tool, the second end of the first diode (9) of the second tool is connected to the first end of the first actuated element (11) of the second tool to the second end of the first diode ) of the n-th tool connected to the first end of the first actuated element (n-2) of the n-th tool, the second end of the first actuated element (6) of the first tool being connected to the first end of the second the second end of the first actuated second tool element (11) is connected to the first end of the switch OF THE INVENTION (13) of the second tool and simultaneously with the second end of the second actuated element (12) of the second tool until the second end of the first actuated element (n-2) of the nth tool is connected to the first end of the switch (n) of the nth tool the second end of the second actuated element (n-1j of the nth tool, the second end of the switch (8) of the first tool being connected to a second input (15J) to which the second pole of the DC power supply (1) is connected; 13) the tool is connected to the second wiring input (15) up to the second end of the nth switch (nj of the tool is connected to the second wiring input (15), the second end of the second switch (3) being connected to the first end of the second diode (5) a first tool, with the first end of the second diode (10) of the second tool up to the first end of the second diode (n-3) of the nth tool, the second end of the second diode (5) of the first tool being connected to the first end of the second The second end of the second diode (10) of the second tool is connected to the first end of the second actuated element (12) of the second tool until the second end of the second diode (n-3J of the nth tool is connected to the first end). the second actuated element (n-1) of the n-th tool.