DE2452695A1 - Electro-coagulation probe for tubal sterilization - with heating resistor electrode rapidly reaching end temperature then remaining constant - Google Patents

Abstract

The electrode consists of a metal jacket tube (50) with a temperature insulation cap (60) at the upper end (50a) one section of which (60a) projects out of the upper end (50a) of the jacket tube. The lower tube section has another temperature insulating cap (65) on it leaving an intermediate chamber in the tube between the caps equipped with a heat-emitting N.T.C. resistance (106) coupled to the regulating and supply circuit over supply lines (120, 121). Pref. the control and supply circuit contains a potentiometer to adjust the collector current through one transistor, an N.T.C. resistance, a second transistor, another resistance, a control lamp, a third transistor and a second control lamp.

Description

Electrocoagulation probe The main patent (P 23 22 ooo.o-35) concerns an electrocoagulation probe for intrauterine tube sterilization with a arranged at the end of the probe electrode, the end of which is designed as a heating resistor Electrode an insulating one between two electrodes running in the longitudinal direction of the electrode Sections arranged having electrical heat-emitting section.

The object of the invention is to provide the electrocoagulation probe after Main patent to improve and also a control and supply circuit for the electrocoagulation probe that enables the electrocoagulation probe reaches the preselected end temperature very quickly and maintains a constant temperature is held.

To solve this problem, a coagulation probe is proposed, which is designed according to the invention in such a way that the electrode of a Jacket pipe is made of metallic materials, which at its upper end as an insulating Section carries a temperature insulating cap, which is connected to a section from the upper The end of the jacket tube is led out as the lower insulating section with a temperature-insulating cuff cap arranged at a distance from the temperature-insulating cap is provided and that in its interior between the temperature insulating cap and the temperature insulating cuff cap as a current heat-emitting section an NTC resistor has, which via power supply lines with a control and supply circuit connected is.

The control and supply circuit has a constant current source with a temperature monitoring circuit. The control and supply circuit is characterized by a potentiometer for setting the collector current through a transistor, through one in the event of a voltage drop across the NTC resistor of the probe by controlling via a resistor opening second transistor, by a control lamp, by a voltage drop across a resistor another resistor opening third transistor and through another Control lamp.

In the drawing, the subject matter of the invention is shown, for example, namely shows: -Fig. 1 the electrocoagulation probe, partly in view, partly in a vertical section, FIG. 2 the electrocoagulation probe in a view from above and FIG. 3 shows the circuit diagram for the control and supply circuit the electrocoagulation probe.

According to FIGS. 1 and 2, the electrocoagulation probe consists of one Electrode 13a, which is made from a jacket tube 50 made of metallic materials is. The upper free end 5pa of the jacket tube 50 carries a temperature insulating cap 60 made of heat-insulating materials, so that the one in the interior of the jacket pipe The NTC resistor 106 arranged in this way does not radiate heat in the longitudinal direction to the Probe can emerge from this. The temperature insulating cap 60 is such on upper free end 50a of the jacket tube so attached that the temperature insulating cap 60 protrudes with a section 60a from the upper end of the jacket tube So.

At a distance from the temperature insulating cap 60 is on the lower At the end of 50 of the casing tube, a temperature-insulating cuff 65 is put on, which consists of the same heat-insulating materials as the temperature-insulating cap 60. This temperature-insulating cuff 65 simultaneously connects the lower end 50b of the jacket pipe So with a feed line protection hose indicated at 80, through which the supply lines 120 (+ pole) and 121 (- pole) are passed.

The power supply lines 120,121 are with the between the Temperature insulating cap 60 and the temperature insulating cuff cap 65 and in the interior of the jacket pipe So arranged NTC resistor 106 in connection. This NTC resistor 106 is additionally covered with a glass or ceramic envelope indicated at lo6a / surrounded, however, in no way the radiation of the heat from the NTC resistor 106 decreased. The NTC resistor 106 represents the heat-emitting section the electrocoagulation probe while the temperature insulating cap 60 and the temperature-insulating cuff 65 represent the heat-insulating sections, so that heat radiation occurs exclusively in the area of the NTC resistor 106, which is indicated by the arrows in Figs.

The electrocoagulation probe is activated by the heat generated by the current heated and this heat is defined radially by conduction to the surrounding Tissue cylinder delivered. The temperature of the probe is preselectable and at the point the heat transfer constant at all times. The circuit for electrocoagulation probe heating is galvanically separated from the human body. The electrical functions of the The probes can be continuously monitored by means of control lamps. The probe is used for removal of tissue parts. The tissue coagulated by the action of heat resorbs and is repelled.

The electrocoagulation probe contains So in the cylindrical jacket the NTC resistor 106, which is connected to a controllable constant current source is connected. This NTC resistor 106 fills one Dual function off: It also serves as a measuring sensor that warms up when it is self-heating resulting temperature. The given by the size of the tubes ~ <1 mm diameter) Dimensions are exclusively with such an NTC probe in simultaneous double function already described to realize. In addition to temperature measurement the NTC resistor is used to monitor the temperature.

The control and supply circuit shown in Fig. 3 for the electrocoagulation probe has a DC voltage source loo. At the constant current source the constant current Io is set. It applies to the heat output PW, which in the NTC probe is generated: = 1o2 A e B / T This formula shows that with increasing Temperature T of the NTC probe, its electrical resistance decreases. This increases impressed current 10 through the NTC probe and the resulting at the NTC probe Heat output. This behavior makes the electrocoagulation probe very effective quickly the preselected end temperature, which is impressed by the at the same time Current is fixed. If a lot of heat is dissipated through the environment at the NTC probe, so because of the falling temperature T, the resulting heat output increases through the Control effect of the control circuit on the preselected final value. The entire arrangement - Electrocoagulation probe and supply device - is therefore with a controlled system Proportional controller similar.

3, the function of the constant current source with simultaneous Temperature monitoring circuit explained: The collector current is set at the potentiometer llo 1 set by 0 the transistor 107. The current 10 is the applied current through the NTC probe 106. Due to the voltage drop at the NTC probe, the The transistor 112 is opened via the resistor 111. The control lamp 114 lights up on. If there is a short circuit in the NTC probe or the supply line, the lights up Control lamp 114 does not come on. The voltage drop across resistor 108 is over the resistor 105 of the transistor 104 is opened. The control lamp 102 lights up. If there is a break in the tube due to mechanical stress when inserting it into the tube In front of the supply line, the control lamp 102 does not light up. The indicator lights 102 and 114 are used to monitor the full functionality of the probe and the device. As can also be seen from the circuit shown in FIG. 3, it has still further resistors 103, lo9 and 113 on.

With the present probe and the special design of the probe electrode an electrocoagulation probe with built-in NTC resistor is created which; works in a double function at the same time as measuring sensor and heating resistor. A constant current source is used for the adjustable temperature setting and for keeping the temperature constant the electrocoagulation probe. Through the two control lamps 102, 114 is an electronic function control of the probe over the coagulation period possible. The temperature insulating cap 60 is inserted into the jacket tube So in such a way that that the outer periphery of the upper portion 60a of the temperature insulating cap 60 smoothly merges into the outer wall surface of the jacket tube so that the predetermined small dimensions of the electrocoagulation probe can be maintained.

- patent claims -

Claims (3)

PATENT CLAIMS: Electrocoagulation probe for intrauterine tube sterilization with an electrode arranged at the end of the probe, the end of which is used as a heating resistor formed electrode one between two extending in the longitudinal direction of the electrode having insulating sections arranged electrical heat-emitting section, according to patent ....... (P 23 22 ooo.o-35), characterized in that the electrode (13a) consists of a jacket tube (50) made of metallic materials, which on his the upper end (50a) has a temperature insulating cap (60) as an insulating section, which is led out with a section (60a) from the upper end (50a) of the jacket tube (50) is that as the lower insulating portion with one at a distance from the temperature insulating cap (60) arranged temperature-insulating cuff (65) is provided and that in his Interior space between the temperature insulating cap (60) and the temperature insulating cuff cap (65) has an NTC resistor (106) as the current heat-emitting section, which via power supply lines (l2o, l2l) with a controller - and supply circuit is connected. 2. electrocoagulation probe according to claim 1, characterized in that that the control and supply circuit is a constant current source with a Has temperature monitoring circuit. 3. electrocoagulation probe according to claim 1 and 2, characterized in that that the control and supply circuit has a potentiometer (llo) for setting of the collector current (Io) through a transistor (wo7), one in the event of a voltage drop at the NTC resistance (log) of the electrocoagulation probe by activating via a resistor (111) opening second transistor (112), a first control lamp (114), one by a voltage drop across a resistor (108) through another Resistance (1o5> opening third transistor (104) and a second control lamp (102). L e r s e i t e