RU26343U1 - TEMPERATURE CONTROL DEVICE - Google Patents

Description

TEMPERATURE CONTROL DEVICE

The utility model relates to measuring equipment and can be used in instrumentation in temperature sensors, for example, for refrigeration and frying equipment.

Known temperature controller a. from. USSR No. 1057930 Sopubl. 30.11.83 , bull. fe 44), containing a thermal bulb connected by a capillary to an elastic element connected through a first pivotally mounted in the lever housing with a tuning screw installed in it, with a contact switch, and a tuning mechanism made in the form of a profile cam with an axis and two parallel platforms and fixed in a groove of the housing with the possibility of longitudinal movement and connected through the second pivotally mounted and located parallel to the first lever with an elastic element. The temperature controller has the following disadvantages: instability of operation and departure of the settings due to the mounting of levers on hinges, which have necessarily structural gaps and quickly wear out: impossibility to install the stops of the elastic element - membranes without transfers: quick wear of the profile cam and the upper lever in places of their sliding, increased deformation of levers during operation and overloads as a result of the natural inertia of the environment when it is heated and, as a result, short service life. For the above reasons, the temperature controller has limited use.

The closest in design to the proposed device is a temperature control device according to the patent of the Russian Federation and 2130197 publ. 05/10/99 , bull. 13), comprising a housing in which a thermal system is located, consisting of a thermocylinder, a capillary and an elastic element, a tuning screw having the possibility of axial movement in the housing, a micro switch and a switching lever with one

the sides are pivotally mounted in the housing, and on the other hand is tightened by a compensation spring, which at one end is rigidly connected to the housing. The device additionally contains another tuning screw, also having the possibility of axial movement in the housing, and the element is installed between the tuning screws. The temperature control device according to the patent of the Russian Federation No. 2130197 has the following disadvantages: instability of operation and deviation of the settings, and the longer the operating time, the greater this deviation from the manufacturer’s settings, which reduces the life of the device as a whole.

The purpose of the utility model is to increase the stability of the response parameters by temperature and increase the service life, as well as simplify the design.

This goal is achieved by the fact that in the lower part of the elastic element there is a stop located on the axis of the coil spring sandwiched between the elastic element and the housing to stabilize the position of the elastic element and acting directly on the contact spring of the microswitch, the elastic tongue of which abuts the housing and creates a spring force from a point supporting the tongue of the contact spring into the housing towards the switching group of contacts, and the free axial movement of the contact spring of the microswitch, abutting being inserted into the housing with the end fixing its position relative to the stop point of the elastic tongue and having the ability to rotate around the fulcrum, increasing the degree of freedom of its axial movement at the point of contact with the stop of the elastic element of the thermal system is larger than the axial movement until the microswitch is triggered by the amount of possible movement of the stop of the elastic element thermal systems after the microswitch is triggered.

devices.

The temperature control device comprises a housing 1, in which a thermal system is located, consisting of a thermocylinder 2, a capillary 3 and an elastic element 4 with stops 5 and 6, in the upper part of which the stop 5 is in contact with a setting screw 7, which is axially movable in a rigidly connected housing 1 nut 8, and in the lower part of which an abutment 8 located on the axis of the coil spring 9 sandwiched between the elastic element 4 and the housing 1 to stabilize the position of the elastic element 4, acts directly on the support point of the contact springs 1P of a microswitch, an elastic tongue which abuts against the housing 1 and creates a spring force from the point A of the tongue support towards the switching group of contacts 11, abutting against the housing 1 at the point B, fixing its position relative to the point A of the stop of the elastic tongue and being able to rotate around the support B .

The proposed device operates as follows.

Thermal balloon 2 is installed in an environment whose temperature must be controlled. By turning the settings screw, the device is adjusted to the required operating temperature T of the microswitch. When the ambient temperature rises to T, the thermosensitive fluid in the thermal system expands, the elastic element, pressed by the spring 9 stabilizing its position, moves the support point of the contact spring 10 of the microswitch down and open by an amount 6 h (or closes, depending on the purpose of the proposed device) switching group of contacts 11. Due to its inertness, the electric heater continues to increase the ambient temperature for some time. However, at the same time, overload and deformation of the contact spring 10 are not observed, since it has the possibility of further

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displacement to the value of N. A prerequisite is that the displacement of the contact spring at the point of pressing H must be greater than h. The maximum value of H is limited by the minimum dimensions of the housing 1. The elastic tongue of the contact spring 10, creating a spring force F keeps the micro switch and emphasis 6 of the elastic element 4 in constant contact and dynamic state.

When the ambient temperature rises, the thermosensitive fluid in the thermal system is compressed, the point of pressing of the contact spring 10 moves upward along with the stop 6 of the elastic element 4 and closes the force or opens depending on the purpose of the proposed device) switching group of contacts 11.

Due to the fact that the proposed device does not have an intermediate, pivotally mounted in the housing, the switching lever and the stop of the elastic element of the thermal system acts directly on the contact spring of the microswitch, the elastic tongue of which abuts the housing and creates a spring force from the stop of the tongue towards the switching group of contacts 11, and the free axial movement of the contact spring of the microswitch abuts against the housing at point B with the end fixing its position relative to point A of the stop of the elastic tongue and having the ability to rotate around point B, increasing the degree of freedom of its axial movement at the point of contact with the stop 6 of the elastic element 4 of the thermal system, more than its axial movement by the amount of the possible movement of the stop of the elastic element of the thermal system after the microswitch is activated, the control device has high stability of parameters temperature response and better performance compared to known devices of this type.

Claims (1)

A temperature control device comprising a housing in which a microswitch is located, a thermal system consisting of a thermowell, a capillary and an elastic element with an emphasis in the upper part in contact with the adjustment screw having the possibility of axial movement in the nut rigidly connected to the housing, characterized in that in the lower part of the elastic element there is a stop located on the axis of the coil spring, sandwiched between the elastic element and the housing to stabilize the position of the elastic element and acting directly on the contact spring of the microswitch, the elastic tongue of which abuts against the housing and creates a spring force from the fulcrum of the tongue of the contact spring in the housing towards the switching group of contacts, and the free axial movement of the contact spring of the microswitch resting on the housing with the end fixing its position relative to the abutment point of the elastic tongue and having the ability to rotate around a fulcrum, increasing the degree of freedom of its axial movement at the point of contact with the emphasis of the elastic element of the thermal system less than the axial displacement before the microswitch is activated by the value of the possible displacement of the stop of the elastic element of the thermal system after the microswitch is activated.