RO111001B - Thermostat with micro switch - Google Patents

Abstract

The present invention relates to a microswitch thermostat, intended regulation of technological processes in industry, for engine types in power stations produce heat, and other engines. The thermostat is provided with a capillary tube (1), which has a well-established relationship between the inside diameter and length, so that produces a controlled delay at transmitting fluid pressure from a probe (2) to a sling (4), respectively to the force which is transmitted by a rod (5) to a lever (6), where it compares with the forces in two springs (8 and 10) and the imbalance the product changes the status of the contacts to a microswitch (12), from the normal closed on normally open and vice versa.

Description

BACKGROUND OF THE INVENTION The present invention relates to a thermostat with micro-switch, intended to regulate the technological processes in the industry, for the types of locomotive engines, naval engines, electromotors from thermal power plants, as well as other engines and achieves the optimization of the operation of the motors by damping the cooling system disturbance and engine lubrication.

An thermostat with an electric switch is known, which uses a temperature sensor that transforms the temperature variations into variation, pressure, further functioning as a pressure switch, the pressure variations being taken up by a recessed rod at one end and which actuates a switch.

The problem solved by the invention is the protection of the motors at the temperature peaks of the cooling or lubricating fluid, of short duration, which appear at checks and accelerations done abruptly, during operation, by inserting inside the temperature probe of the thermostat, a capillary pipes in the form of serpentine of established dimensions.

The thermostat, according to the invention, for the purpose of removing the engine stops at the temperature peaks and for maintaining a preset temperature constant in a technological installation, is composed of a temperature sensitive element, the temperature variation leading to the variation of the pressure on the surface of the silicon, which gives a force that is compared by means of a lever with the forces of a domain arc and differential arc. The imbalance of the power supply causes a change in the contact state of a micro switch.

This thermostat has the advantage that by mechanically integrating the temperature peaks in the coolant or lubricant, it protects the engine at instant and repeated stops, thus increasing the stability and safety of the engine.

The following is an example of an embodiment of the invention, in connection with the figure which represents the scheme of operation of a thermostat with a micro switch.

The thermostat, according to the invention, is constituted by a pressure switch mechanism and a temperature sensitive element.

It is proposed a technical solution for protection, insensitivity to shocks, to short-term temperature peaks that occur during engine checks and sudden accelerations during operation. This protection is achieved by introducing a capillary pipe in the form of a coil 1, in a probe 2, of a sensitive element 3, of the thermostat, a delay is made, a lamination in the siphon of the liquid from the probe 2, under a whistle 4, inside which there is a freon type liquid.

By optimum choice of the length and the inner diameter of this capillary pipe 1, different delay times can be achieved, by mechanical integration of the temperature peaks, obtained by laminating the liquid from the probe 2, which passes through this coil 1, below the effective surface of the bell 4.

The thermostat operates over the boiling point of the freon, and in the sensitive element 3, there is also gas and liquid fulfilling the condition that their separation surface is inside the probe 2.

Choosing various constructive shapes for the capillary pipe 1, from a straight pipe to a serpentine pipe 1 with a diameter and length chosen experimentally, delays are obtained when sensing the temperature shocks, a mechanical integration of the temperature shocks and a increase of the response time on the order of 15 min. much more.

Increasing the temperature in the control chamber results in an increase in the pressure of the supersaturated vapors of the liquid in the sensitive element 3. This pressure acts on the surface of the buzzer 4 and becomes a force.

The force is further transmitted through a rod 5, to a lever 6, where it is balanced by the force of a field spring 8. This spring rests on a plate 7 and is tensioned by means of a screw 9. Also at the force of the domain spring 8 is added and the force of a differential spring 10, provided with an actuating screw and a ball rod 11.

The imbalance between the force in the sensitive element 3 and the force in the domain arc 8 and differential 10 results in the lever 6 triggering a micro-switch 12, respectively the switching of the electrical contacts from the closed normal to the open normal and vice versa, depending on the sense of temperature rise or decrease. to be controlled. The micro-switch 12 has the electrical connection wires mounted on a terminal block 13 or a series of clips, where the electrical wires from the automation scheme are also connected, introduced through a cable introducer 14. All these elements are fixed in a housing 15 which is provided with an L-shaped wall 18 separating a smaller housing also called a terminal box. The shape of the thermostat housing is paralepipedic and is obtained by casting.

By inserting the inner wall 16, an additional mold for the terminal box is removed. The terminal box and thermostat box have separate access caps. These caps are made of plastic and are fastened with screws and seal screws. gaskets are provided between the lid and the housing to ensure the degree of protection IP 65, depending on the climate where it works.

Terminal box 16 is required and used on rolling stock thermostats and naval thermostats.

These thermostats can be executed in many constructive variants. The variant described is a thermostat with adjustable differential. In this thermostat two (limit) switching values are set, one up or down, and the second one is the return value. When the set temperature is increased, at any work point within the control range, it switches an electrical contact to the set point, and when the temperature drops below a preset difference, it changes the contact in the opposite direction. The differential of the thermostat is considered as the difference in absolute size between the switching point and a successive return point.

The machines can be for normal or corrosive work environments. The constructive solution also applies to thermostats with fixed differential. This apparatus is obtained from the basic apparatus of the figure by eliminating the differential subassembly with the spring 10 and the rod 11. The fixed differential thermostat is also a control element with temperature controlled inverter electrical contact. At the thermostat with a fixed differential, a switching value is set up or down, and the second value called the return value is based on the fixed differential of the thermostat, respectively the differential travel of the circuit breaker 12 used.

Claim

Claims (1)

Thermostat with micro-switch, having a pressure switch mechanism and a temperature sensitive element, characterized in that in order to increase the response time and eliminate the perception of temperature shocks, it is provided with a capillary pipe (1) that has a good ratio determined between the inside diameter and the length, so that it produces a controlled delay in transmitting the fluid pressure from a probe (2) to a whistle (4) or its force, which is transmitted through a rod (5) to a lever (6) where it is compared with the forces of two springs (8 and 10), and the imbalance produced leads to the change of the state of the electrical contacts of a micro switch (12) from the normal closed to the open normal or vice versa.