SU1045414A1 - Electric heating device for oral jet injector - Google Patents

Abstract

ELECTRIC HEATING DEVICE FOR DENTAL PISTO SUMMER, containing a resistive heater, in series with which the control button is turned on, and a numerical transformer with a tap on the secondary winding, a chain of heater And buttons connected at one end to the start of the secondary winding directly, and at the other end with a tap and end connected with a button and connected to the end of the secondary winding, the button is connected to the secondary winding, and the other end is connected to the secondary winding and connected to the secondary winding. winding through the blocking and closing contacts of the commutator with time delay relay, characterized in that, in order to increase the reliability of operation, it is provided with / on A chain of charging diode, resistor and capacitor, blocking and discharge diodes, connected to the ends of the transformer secondary winding, the discharge diode is connected by an anode to the control input of a time relay and a common point of a capacitor and a resistor, and the cathode is connected to the cathode of a blocking diode connected by the anode to the tap, and with the breaker contact of the switch, the closing contact of which is connected to the anode of the charging diode and the end of the secondary winding of the transformer. h

Description

The invention relates to electrical heating technology and is intended for use in dental pistols. The electrical heating devices of TI 3 dental air pistols are known. The disadvantage of such devices is the slowed-down heating of the air leaving the pistols to the required temperature, i.e. the operational readiness of dental pistols is low, which entails a low productivity of the stomatologist and a deterioration in the quality of the procedures performed. The closest in technical terms to the proposed invention is an electric heating device for a stationary gun, containing a resistive heater, in series with which a control button and a power transformer, the secondary winding of which is fitted with a tap, are connected, the chain of the heater and the button are connected directly to one end of the secondary winding and the other with a tap-off and the end of the secondary winding through a block of disconnecting and closing contacts of the switchboard with time delay relay 2J. The disadvantage of this device is the large number of galvanically coupled resistive electric heaters with power sources, which leads to a decrease in the flexibility of the connecting cord and a decrease in the reliability of its connection. These last indicators of the quality of the connecting cord in this case are of great importance, since the specifics of the operation of the dental gun provides for its frequent movement. The presence in the considered device of a large number of connections is due to the fact that the power supply circuit of the holding unit is inserted into the dental pistol, and its activation is carried out by a common control button located on the pistol. The purpose of the invention is to increase the reliability of the operation of the device by reducing the number of galvanic couplings. To achieve this goal, an electric heating device for a dental handpiece containing a resistive | A heater, in series with which the button U2 of the control and the power transformer with a tap on the secondary winding are turned on, a chain of heater and a button is connected at one end to the beginning of the secondary winding and the other with a tap and the end of the secondary winding through the block of disconnecting and closing contacts the switch with the relay. The time delay is additionally equipped with a chain of charging diode, a resistor and a capacitor connected to the ends of the secondary winding of the transformer, blocking and discharge diodes iodo connected anode to the control input time switches and the common point of the capacitor and the resistor, and the cathode - to the cathode of the blocking diode, connected anode to the sealing-off, and a break contact switch, make contact of which is connected to the anode of charging diode and the end of the transformer secondary winding. FIG. 1 shows a diagram of the electric heater of a dental air pistol, general view; in fig. 2 shows a simple embodiment. The power transformer has a primary winding 1 and two secondary main 2 and auxiliary 3. Due to the presence of a tap, the resistive electric heater k with the control button 5 is galvanically connected to the time delay unit 6, and through the blocking diode 7 and the break contact 8-9 of the switch unit 6 holdings: time with a tap-off, while in parallel they are connected to a chain of series-connected charging diode 10 of resistor 11 and capacitor 12. Closing contact 13 of the switch is connected to the end of winding 3 and time delay unit 6. The common connection point of the resistor 11 and the capacitor 12 is connected to the anode of the discharge diode 14 and the block 6 time delay. The cathode of the discharge diode T is connected to the normally open contact 8 of the switch. The time delay unit 6 comprises an electromagnetic relay 15, an electrothermal relay 16, a coupling capacitor 17, a rectifying diode 18 and a storage capacitor 19. The common connection point of the contact 20 of the electromagnetic relay 15, the storage capacitor 19 electrode and the output of the electrothermal relay 16 is connected to the winding terminal 2 of the transformer . The closing contact 21 is connected to the winding of the electromagnetic relay 15 and one of the electrodes of the separation capacitor 17. The other electrode of the separation capacitor 17 is connected to the common connection point of resistor 11 and capacitor 12. The positive output of the rectifying diode 18 and the closing contact 22 of the electromagnetic relay 15 is connected to the terminal of the auxiliary winding 3 transformer. The contact 23 of the electromagnetic relay 15 is connected to the output of the electrothermal relay 1b. The cathode of the rectifying diode 18 through the disconnecting contacts 2k and 25 of the electric thermal relay 16 is connected to the common connection point of the electromagnetic relay 15 and the storage capacitor 19. The movable contact 9 of the output switch is mechanically connected to the movable contacts 20 and 23 of the electromagnetic relay 15. The device operates as follows in a way. When voltage is applied to the primary winding 1 of the transformer, capacitor 12 is charged to the amplitude value of the total alternating voltage of the main 2 and additional 3 transformer windings through the circuit end of the winding 3 - charging diode 10 resistor I - capacitor 12 - winding clamp 2, Simultaneously occurs supplying the device to the block 6 time delay and preparing it for work. When the control button 5 is pressed, the positive half-waves of the alternating voltage from the main winding 2 of the transformer come through the blocking diode 7 and the contacts 8-9 of the switch to the resistive electric heater. At the same time, a fast discharge of the capacitor 12 occurs through the discharge diode 1 and the contacts 8-9 of the output switch. At the same time, a negative impulse is formed at the connection point of resistor 11 and capacitor 12, which ensures the start of the time delay block, the output switch of which through contacts 9 and 13 connects the resistive electric heater to overvoltage removed from the secondary windings 2 and 3 After a specified period of time, block 6 the time delays return to the initial state, thereby transferring the supply of the resistive electric heater to the half-wave voltage from the winding 2 through the blocking diode 7. Opening The control buttons 5 ensures that the device is ready to be turned on again. Since the final charging voltage of capacitor 12 is more than the amplitude of the alternating voltage of the main winding 2, the capacitor 12 can discharge regardless of the temporal position of the positive half-wave on the resistive electric heater at the moment pressing the control button 5, which ensures reliable formation of a negative pulse. Block 6 works as follows. When the voltage is applied to the transformer, the capacitors 12 and 19 are charged to the total amplitude value of the voltages acting on the secondary windings 2 and 3. The separator capacitor 17 is still uncharged (both electrodes of the capacitor are at the same potential). When the control button 5 is closed, the capacitor 12 is discharged through a low-resistance load — a resistive heater 4. The discharge of the capacitor 12 causes the charge of the capacitor 17 to flow through the coil of the electromagnetic relay 15. The relay 15 is activated, the contacts 20-23 of the electromagnetic relay 15 are closed between themselves, and this ensures the supply of voltages to both the electrothermal relay 16 and the winding of the electromagnetic relay 15. The switch 9 contact closes with contact 13, which causes an increased voltage to be applied to the resistive heater k. After some time, determined by the type of electrothermal relay 16, the electrothermal relay is activated and opens the power supply circuit of the electromagnetic relay 15 (contacts 24 and 25 open), which in turn causes the power supply circuit of the electrothermal relay to open and the power supply of the resistive heater A to low voltage ( pin 9 of the output switch re-closes with pin 8). The bimetallic plate of the electrothermal relay starts from this moment on 1: it cools down. The capacitor 19 at the same time remains charged to the amplitude value, and the voltage on it practically does not change (only a small self-discharge occurs). After some time, which is also determined by the type of electric-thermal relay, the bimetallic plate of the relay will cool so that contacts 2 and 25 are closed again. However, the state of the circuit does not change. Only a dosage of the condenser 19 to the amplitude value can take place. If there has been any noticeable self-discharge during the elapsed time. Still, a lower voltage is applied to the resistive heater Q. I6 At the end of the treatment procedure, the dentist opens the control button 5. This leads to charging the capacitor 12 to an amplitude value and preparing the circuit for re-switching. The technical advantage of the proposed electric heating device with a hundred air gun is a reduction in the number of galvanic connections of the gun with the dental unit itself to two, which leads to increased reliability and greater flexibility connecting cord, less fatigue at work of the dentist and, in general, to increase productivity.

(rig 2

Claims (1)

ELECTRIC HEATING DEVICE FOR DENTAL GUN, containing a resistive heater, a control button in series with it, and a digital transformer with soldering on the secondary winding, a chain of heater and buttons connected directly at one end to the secondary winding and to the secondary and soldering. windings through the block of opening and closing contacts of the switch * with the time delay relay, characterized in that, in order to increase the reliability of operation, it is equipped with The secondary transformer winding is connected with a chain of a charging diode, a resistor and a capacitor, blocking and discharge diodes, the discharge diode is connected by the anode to the control input of the time relay and the common point of the capacitor and resistor, and the cathode is connected to the cathode of the blocking diode connected to the tap by the anode and with a disconnect contact switch, the closing contact of which is connected to the anode of the charging diode and the end of the secondary winding of the transformer.