RU2479298C1 - Electric and pneumatic tool controller system of dental unit - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, namely to dental machines. An electric and pneumatic tool controller system of a dental unit comprising a scaler, an electric micromotor with a tip and a turbine, accommodates an electric control unit which includes an electric micromotor control unit and a scaler control unit, a pneumatic control unit, pneumatic scaler, electric micromotor and turbine selector valves, as well as a data display unit and an air pedal. The system further comprises a control unit, a data processing unit, two dual potentiometers consisting of two mechanically coupled variable resistors, relay switches, and a pressure sensor.

EFFECT: use of the invention provides control and display of selection and operation of all the tools; a scaler power controller allows a doctor providing the tool power required for each mode of scaling, and air pressure control in the turbine within the pre-set limits to prevent excess of these limits and, respectively increased operation time.

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Description

The invention relates to medical equipment, namely to dental drills.

A known control system for electric and pneumatic tools, including a control unit in the form of a central computer, which performs operations to record the total number of on and off of the tool and equipment, control the life of each specific tool and equipment, archive all measured parameters and obtain information about it for any past periods of time, comparing real time expenditures with planned ones, accounting for energy consumption, determining a working tool and equipment outside the location of the dental chair and dental office, determining graphically the quality of the dentist's work, compiling a statistical report on the operation of each specific dental chair, etc., RU 2349294 C1.

The disadvantage of this system is the fact that the power loss of the control unit leads to a failure of the equipment and tool.

A known system of operation of electric and pneumatic tools of a dental unit, including a scaler, a microelectromotor with a tip and a turbine, containing a pneumatic control unit, an electric control unit including a control unit of a microelectromotor with a tip and a control unit for a scaler, pneumatic valves for selecting a scaler, a microelectromotor with a tip and turbines, information display unit, as well as air control pedal, RU 40170 U1. A diagram of a control system for the operation of electric and pneumatic tools is shown in FIG. 3 of the drawings RU 40170 U1, the operation of this system is given in the description of the utility model mentioned above, which is adopted as a prototype of the present invention.

This system displays only the operation of the microelectromotor with a tip, while there is no control over the operating mode of the scaler and turbine.

The objective of the present invention is to provide control and display of the selection and operation mode of all tools, that is, along with the microelectromotor also a scaler and turbine; control of the scaler power will allow the doctor to provide the tool power necessary for each scaling mode, and control of the air pressure in the turbine within the specified limits will prevent these limits from being exceeded and, accordingly, will increase its operation time.

According to the invention, a control system for the operation of electric and pneumatic tools of a dental unit, including a scaler, a microelectromotor with a tip and a turbine, comprising a pneumatic control unit, an electric control unit including a microelectromotor control unit and a scaler control unit, pneumatic selection valves, respectively, of a scaler, microelectromotor and turbine , an information display unit, as well as an air control pedal, while the first output of the pneumatic control unit is connected with the inlet of the pneumatic valve for selecting the scaler, the second output of the pneumatic control unit is connected to the inlet of the pneumatic valve for selecting the microelectromotor, the third output of the pneumatic control unit is connected to the inlet of the pneumatic valve for selecting the turbine, the outputs of the pneumatic valves for selecting the scaler, microelectromotor, turbine are connected, respectively, with the first, second and the third inputs of the pneumatic control unit, the fourth input of which is connected to the air supply source under pressure, and the fourth d of the pneumatic control unit is connected via the air control pedal to its fifth input, the fifth output of the pneumatic control unit is connected through the first relay switch to the input of the microelectric motor control unit, the first output of which is connected to the microelectromotor, the sixth output of the pneumatic control unit through the second relay switch is connected to the input of the control unit of the scaler, the first output of which is connected to the scaler, the seventh output of the pneumatic control unit is connected to the turbine, in addition contains a control unit, an information processing unit, the first dual potentiometer consisting of two mechanically connected variable resistors, the second dual potentiometer consisting of two mechanically connected variable resistors, the third, fourth, fifth and sixth relay switches and pressure sensors, while the output of the unit the control is connected to the input of the information processing unit, the output of which is connected to the input of the information display unit, the output of the scaler selection valve through the fifth relay switch is connected to the third input of the unit and control, the output of the microelectromotor selection valve through the fourth relay switch is connected to the second input of the control unit, the output of the turbine selection valve through the third relay-switch is connected to the first input of the control unit, the fourth input of which is connected to the output of the pressure sensor, the input of which is connected to the seventh output pneumatic control unit, to the fifth, sixth, seventh inputs of the control unit is connected a variable resistor of the first dual potentiometer, to the eighth, ninth and tenth inputs of the control unit under the variable resistor of the second dual potentiometer is switched on, the variable resistor of the first dual potentiometer is connected to the second, third and fourth outputs of the microelectric motor control unit, the variable resistor of the second dual potentiometer is connected to the second, third and fourth outputs of the scaler control unit, and the fifth input of the pneumatic control unit through the sixth relay -switch connected to the eleventh input of the control unit.

The invention is illustrated in the drawing, which shows a block diagram of a system for monitoring the operation of electric and pneumatic tools of a dental unit.

The system monitors the operation of the electric and pneumatic tools of the dental unit, which includes a scaler 1, in a specific example, manufactured by SYPRASSON, France, a microelectromotor 2 with a tip and a type 3 Black Pearl turbine from Bien Air, Switzerland.

The control system includes a pneumatic control unit 4 (triblock V-1842 from Warehouse, USA) and an electric control unit 5, including a microelectric motor control unit 6 with a tip and a scaler control unit 7. In this example, block 6 is a Maxon EM control board "Company" Coral ", Russia, and block 7 - module company Satelec, France.

The system also includes pneumatic valves 8, 9, 10 for selecting, respectively, a scaler 1, a microelectromotor 2 and a turbine 3, an information display unit 11 (computer monitor), an air pedal 12 (F-1200-COR from Warehouse, USA); the first output of the pneumatic control unit 4 is connected to the inlet of the pneumatic valve 8 for selecting the scaler 1, the second output of the pneumatic control unit 4 is connected to the input of the pneumatic valve 9 for selecting the microelectric motor 2, the third output of the pneumatic control unit 4 is connected to the inlet of the pneumatic valve 10 for selecting the turbine 3, the pneumatic outputs valves 8, 9, 10 for selecting a scaler 1, microelectromotor 2, turbine 3 are connected, respectively, with the first, second and third inputs of the pneumatic control unit 4, the fourth input otorogo communicated with a source of air supply under pressure, and the fourth output of the pneumatic control unit 4 is connected through the air pedal 12 of the control with its fifth input, the fifth output of the pneumatic control unit 4 is connected through the first relay switch 13 to the input of the microelectric motor control unit 6, the first output of which connected to the microelectric motor, the sixth output of the pneumatic control unit 4 through the second relay switch 14 is connected to the input of the control unit 7 of the scaler 1, the first output of which is connected to the scaler m 1, is connected to the turbine 3 seventh output pneumatic control unit 4.

In addition, the system comprises a control unit 15, an information processing unit 16, a first dual potentiometer consisting of two mechanically connected variable resistors 17, 18, a second dual potentiometer consisting of two mechanically connected variable resistors 19, 20, the third 21, fourth 22, the fifth 23rd and sixth 24 relay switches and pressure sensor 25.

Relay switches 13, 14, 21, 22, 23, 24 are type 007.000.068 relays, control unit 15 is a BN 357.100000 board manufactured by Coral (Russia). The information processing unit 16 is a computer system unit. Pressure sensor 25 - sensor type MPX5700P from Motorolla; the output of the control unit 15 is connected to the input of the information processing unit 16, the output of which is connected to the input of the information display unit 11, the output of the scaler selection valve 1 through the fifth relay switch 23 is connected to the third input of the control unit 15, the output of the micromotor selection valve 9 through the fourth relay - the switch 22 is connected to the second input of the control unit 15, the output of the turbine selection valve 10 through the third relay switch 21 is connected to the first input of the control unit 15, to the fourth input of which the output of the pressure sensor 25 is connected, the input of which connected to the seventh output of the pneumatic control unit 4, to the fifth, sixth, seventh inputs of the control unit 15, a variable resistor 18 of the first dual potentiometer is connected, to the eighth, ninth and tenth inputs of the control unit 15 is connected a variable resistor 20 of the second dual potentiometer, a variable resistor 17 of the first a dual potentiometer is connected to the second, third and fourth outputs of the microelectromotor control unit 6, a variable resistor 19 of the second dual potentiometer is connected to the second, third and fourth outputs of the control unit 7 scaler 1, the fifth input of the pneumatic control unit 4 via the sixth relay switch 24 is connected to an eleventh input control unit 15.

The system is as follows.

When the dental unit is turned on, power is supplied to it, and compressed air from the compressor (not shown) is supplied to the pneumatic control unit 4 at its fourth inlet. To work with the turbine 3, the doctor removes it from the nest of the table on which the tools are located, while opening the valve 10, the input of which is supplied with air from the third output of the unit 4. From the output of valve 10, air enters the third input of block 4 and to the relay switch 21, from the output of which the signal goes to the first input of control block 15, from the output of block 15 to the input of information processing block 16 and from the output of block 16 to the input of display unit 11 information (monitor), which shows that the turbine is selected 3. The turbine starts to work when you press the pedal 12, while the air from the fourth output of block 4 through the pedal 12 enters the input of the relay switch 24 and from the output of the last to the eleventh input of the block 15 controls. The monitor shows that the turbine is running. At the same time, air enters the fifth input of block 4, from the seventh output of which air enters the turbine 3 and to the pressure gauge 25. From the output of the pressure gauge 25, the signal enters the fourth input of block 15 and the air pressure on the turbine 3 is displayed on the monitor through the block 16.

When the doctor is working with a microelectromotor 2 with a tip, the tool is removed from the nest of the doctor’s table, and air from the second output of block 4 through the opened valve 9 enters the second input of block 4 and the relay switch 22, from the output of which the signal enters the second input of control unit 15 , processed by block 16, and the monitor displays that the selected microelectromotor 2 with a tip. When you press the pedal 12, the operation of the microelectromotor 2 begins, air from the fourth output of block 4 through the pedal 12 enters the fifth input of block 4 and the input of the relay switch 24, from the output of which the signal goes to the eleventh input of block 15, is processed by block 16, and the monitor displays that the microelectromotor 2 is working. From the fifth output of unit 4, air enters the relay switch 13, which includes the control unit 6 of the microelectromotor 2. From the first output of the unit 6, a control signal is supplied to the microelectromotor 2. The number of revolutions of the microelectromotor 2 is controlled by turning the engine of the first dual potentiometer, consisting of two mechanically connected variable resistors 17 and 18. By changing the engine of the first dual potentiometer, the resistance of the variable resistor 17 at the second output of block 6 between the extreme positions (third and fourth outputs of block 6), is simultaneously changed the resistance of the variable resistor 18 at the sixth input of block 15 between the extreme positions (fifth and seventh inputs of block 15). At the same time, the number of revolutions of the microelectromotor 2 is displayed on the monitor.

When working with scaler 1, the doctor removes it from the table socket, while the pneumatic valve 8 for selecting scaler 1 is activated. At the valve 8 input, air enters from the first output of block 4, which enters the first input of block 4 and the relay switch from the output of valve 8 23. From the relay switch 23 after its operation, the signal is supplied to the third input of the control unit 15 and then to the information processing unit 16; the signal from block 16 enters the monitor, where it is displayed that the scaler is selected. To start working with the scaler, press the pedal 12, and air from the fourth output of block 4 enters the relay switch 24 and the fifth input of block 4. After the relay-switch 2 is activated, the signal goes to the eleventh input of the control unit 15, then to block 16, and the monitor shows that the scaler is working. From the sixth output of block 4, air enters the relay switch 14, which is activated and turns on the scaler control unit 7. From the first output of block 7 to the scaler 1 receives a control signal. The power of the scaler is regulated by turning the engine of the second dual potentiometer, consisting of two mechanically connected variable resistances 19 and 20. By turning the engine using variable resistance 19, the resistance of the second output of block 7 between the extreme positions (the third and fourth outputs of block 7) is changed, and using the variable resistance 20 change the resistance at the ninth input of block 15 between the extreme positions (the eighth and tenth inputs of block 15). In this case, the block 16 displays the scaler power on the monitor.

The claimed technical solution allows you to provide control and display the choice and mode of operation of all dental instruments - microelectromotor with a tip, scaler and turbine. It allows you to control and prevent the accidental selection of more than one tool at the same time, which can lead to improper operation of the equipment, and when working with a turbine, the random choice of a microelectric motor can disable it completely.

Scaler power control allows the doctor to provide the required tool power for each scaling mode; monitoring the air pressure in the turbine within the specified limits allows you to prevent exceeding these limits and, accordingly, to increase the time of its operation.

An important new feature of the control system is that it is connected to all tools only pneumatically through the pneumatic control unit and mechanically (by turning the slide of the dual potentiometers). This significantly increases reliability, since failure, for example, of the electrical control unit will not prevent, in contrast to the prototype, the operation of dental instruments.

Claims (1)

A control system for the operation of electric and pneumatic tools of a dental unit, including a scaler, a microelectromotor with a tip and a turbine containing a pneumatic control unit, an electric control unit including a control unit for a microelectromotor and a scaler control unit, pneumatic valves for selecting a scaler, microelectromotor and turbine, respectively, an information display unit as well as an air control pedal, while the first output of the pneumatic control unit is connected to the pneumatic input scaler selection valve, the second output of the pneumatic control unit is connected to the inlet of the pneumatic valve for selecting the microelectromotor, the third output of the pneumatic control unit is connected to the inlet of the pneumatic valve for selecting the turbine, the outputs of the pneumatic valves for selecting the scaler, microelectromotor and turbine are connected respectively to the first, second and third inputs of the pneumatic control unit, the fourth input of which is in communication with the air supply source under pressure, and the fourth output of the pneumatic unit the control is connected via the air control pedal to its fifth input, the fifth output of the pneumatic control unit is connected through the first relay switch to the input of the microelectromotor control unit, the first output of which is connected to the microelectromotor, the sixth output of the pneumatic control unit through the second relay switch is connected to the input of the control unit a scaler, the first output of which is connected to the scaler, the seventh output of the pneumatic control unit is connected to the turbine, characterized in that it further holds a control unit, an information processing unit, a first dual potentiometer consisting of two mechanically connected variable resistors, a second dual potentiometer consisting of two mechanically connected variable resistors, a third, fourth, fifth and sixth relay switches and a pressure sensor, while the output of the unit the control is connected to the input of the information processing unit, the output of which is connected to the input of the information display unit, the output of the scaler selection valve through the fifth relay switch is connected to the third input of the unit control, the output of the selection valve of the micromotor through the fourth relay switch is connected to the second input of the control unit, the output of the valve of the selection of the turbine through the third relay switch is connected to the first input of the control unit, the fourth input of which is connected to the output of the pressure sensor, the input of which is connected to the seventh output of the pneumatic control unit, to the fifth, sixth, seventh inputs of the control unit is connected a variable resistor of the first dual potentiometer, to the eighth, ninth and tenth inputs of the control unit is connected the removable resistor of the second dual potentiometer, the variable resistor of the first dual potentiometer is connected to the second, third and fourth outputs of the microelectromotor control unit, the variable resistor of the second dual potentiometer is connected to the second, third and fourth outputs of the scaler control unit, and the fifth input of the pneumatic control unit through the sixth relay the switch is connected to the eleventh input of the control unit.

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