RU213581U1 - thermostat - Google Patents

Abstract

The utility model relates to devices for temperature control, more precisely to automatic temperature controllers, using a bimetallic plate.

The purpose of the claimed utility model is to achieve such a technical result as improving the reliability of the structure.

This goal is achieved as follows: the thermostat contains a housing, a base plate, a curved bimetallic plate, a lever plate, an adjusting lever, a permanent magnet, a contact plate, an electrical output plate, a fixed contact and an adjustable cylindrical limiter, where the base plate is fixed in the housing, on the base plate an adjusting lever is fixed connected to the lever plate, which, in turn, is connected to a curved bimetallic plate connected to a contact plate fixed to the base plate by means of an electric output plate, a fixed plate and an adjusting cylindrical limiter are also fixed to the circuit board, ferromagnetic properties, while the permanent magnet is fixed on a curved bimetallic plate, is characterized by the fact that the end of the curved bimetallic plate is fixed to the lever plate using a pebble connection, as well as fastening to of the contact plate to the electrical outlet plate is made with the help of an indented connection.

The inventive temperature controller can be used to provide automatic temperature control, including in office, industrial and residential premises. It is manufactured, in particular, at enterprises producing electrical household appliances.

Description

The claimed utility model relates to temperature control devices, more precisely to automatic temperature controllers, using a bimetallic plate.

A magnetic switch is known (patent DE 29617781, published 02/06/1997), containing a switching magnet for a temperature-dependent switch, in particular a room temperature controller, with a bimetallic strip attached to an adjusting lever, which is mounted on a circuit board installed in the housing. An armature is fixed to the bimetallic plate, which interacts with the contacts fixed on the circuit board. An electrical conductor is attached to the anchor.

However, the known technical solution has low reliability.

The closest known is a magnetic thermostat (patent DE 19801258, published 11/18/1999), in which the position of the bimetallic plate is determined by the attraction of the permanent magnet and the room temperature acting on the bimetallic plate. The curved bimetallic plate is mechanically connected to the contact spring in such a way that it displaces the contact spring across its longitudinal direction either to the first electrical contact position or to the second electrical contact position. The permanent magnet is fixed directly on the bimetallic plate. In the immediate vicinity of the magnet there is a ferromagnetic stop attached to the mounting plate, with the possibility of adjusting the distance to the magnet.

However, the disadvantage of the known design is also low reliability.

The purpose of the claimed utility model is to eliminate the identified drawback in order to achieve the following technical result: improving the reliability of the design.

This goal is achieved as follows: the temperature controller contains a housing, a base plate, a curved bimetallic plate, a lever plate, an adjusting lever, a permanent magnet, a movable contact plate, an electrical outlet plate, a fixed contact plate and an adjustable cylindrical limiter, where the base plate is fixed in the housing, on an adjusting lever is fixed to the base plate, connected to the lever plate, which, in turn, is connected to a curved bimetallic plate connected to a movable contact plate, fixed to the base plate by means of an electric output plate, also a fixed and adjusting contact plate is fixed to the circuit board a cylindrical limiter with ferromagnetic properties, while the permanent magnet is fixed on a curved bimetallic plate, characterized in that the end of the curved bimetallic plate is fixed to the lever plate with a bunch left connection, as well as the fastening of the contact plate movable to the plate of the electrical outlet is made with the help of a bulge connection.

The temperature controller can be characterized in particular by the fact that at each of the connection points at least two pebble connections are used, while the pebble connections can be arranged one below the other.

The temperature controller can in particular be characterized in that the adjustable cylindrical limiter is attached to the base plate by means of a pebble connection.

The temperature controller, in particular, may be characterized by the fact that it additionally contains a terminal block.

The temperature controller, in particular, can be characterized by the fact that the adjusting cylindrical limiter is made with a star-shaped slot.

The thermostat, in particular, can be characterized by the fact that the movable contact plate is made of copper.

The temperature controller, in particular, can be characterized by the fact that the electrical output plate is made of brass.

The thermostat, in particular, can be characterized by the fact that the fixed contact plate is made of brass.

The temperature controller can in particular be characterized in that the adjusting lever is attached to the base plate by means of a pebble connection.

The temperature controller, in particular, can be characterized by the fact that the rib joint is additionally reinforced by spot welding.

The thermostat, in particular, can be characterized by the fact that the rib joint is additionally reinforced by contact welding.

The essence of the claimed utility model is illustrated by drawings, where:

Fig. 1 shows the appearance of the claimed product;

Fig. 2 schematically shows the relative position of the main elements;

Fig. 3 shows the connection of a curved bimetal plate and a lever plate;

Fig. 4 shows the connection between the movable contact plate and the electrical output plate;

Fig. 5 shows a generalized pin connection.

The numbers indicate:

1. Body

2. Base plate

3. Curved bimetal

4. Lever plate

5. Adjustment lever

6. Permanent magnet

7. Contact plate movable

8. Electrical outlet plate

9. Contact plate fixed

10. Adjustable cylindrical stop

11. Connection of curved bimetal plate and lever plate

12. Connection of the contact plate of the movable and the plate of the electrical outlet

13. Cylinder stop slot

14. Mobile plate contact

15. Fixed plate contact

16. Groove for installing a permanent magnet

17. Switch

18. Terminal block

The presented thermostat is arranged as follows.

In the housing (1) shown in Fig. 1 (usually made of plastic), the base plate (2) is mounted (usually made of dielectric material). The adjusting lever (5) is attached to the base plate, which is fixed to the curved bimetal plate (3) in place (11) by means of the lever plate (4). The curved bimetallic plate is connected to the movable contact plate (7), which, in turn, is attached to the electrical outlet plate (8) at the location (12). On the curved bimetallic plate, a permanent magnet (6) is fixed, located in the groove (16) opposite the adjustable cylindrical limiter (10), which is fixed on the base plate. The groove can be made, for example, by stamping or sampling metal. A fixed contact plate (9) is also attached to the base plate, having a contact (15) located opposite the contact (14). The case can be made box-shaped, with a closing rear wall with latches, with mounting holes on the rear wall.

The presented thermostat operates as follows.

Temperature regulator - an element of automatic control of the heating equipment. Maintains the temperature at the level set by the consumer. They are used, in particular, in artificial climate installations, in space heating systems, in greenhouses. In the thermostat, the bimetallic plate, when a certain temperature is reached, bends and opens the contact of the electrical circuit through the lever. These thermostats are used to protect equipment from overheating.

A curved bimetallic plate is a curved piece of tape. A curved bimetallic plate is sensitive to temperature changes, as a result of which it changes its linear dimensions. On the body of the thermostat there is a handle of the adjusting lever with applied risks of temperature values. When the knob is rotated, the position of the curved bimetallic plate in the housing changes. In the extreme right position of the handle (low temperatures), the curved bimetallic plate is located closer to the adjustable cylindrical limiter, and in the extreme left position (high temperatures), the curved bimetallic plate is shifted in the opposite direction.

The thermostat can be included in the gap of heating electrical appliances (for example, heaters, underfloor heating systems, and so on). In the event of a closure of the contacts of the movable and fixed plates (14) and (15), the electrical circuit is closed, the thermostat becomes a conductor of electric current, due to which the heating electrical devices are turned on and the air is heated. Under the influence of high temperature, the length of the curved bimetallic plate begins to increase, the curved bimetallic plate moves in the plane of the base plate (the arrows in the Figure show the movement of the bimetallic plate), due to which the contact of the movable contact plate and the fixed contact plate is broken. When the electrical circuit is broken, electrical appliances are turned off, the air temperature begins to fall, due to which the curved bimetallic plate decreases in length, it shifts and the contact closes again. The displacement of the bimetallic plate is also prevented by magnetic forces due to the interaction of a permanent magnet and an adjustable cylindrical limiter made of a ferromagnetic material. By adjusting the position of the adjustable cylindrical limiter relative to the magnet, it is possible to increase the accuracy of the operation of the proposed design.

The temperature controller can be mounted on the wall, for which mounting holes can be provided in the case. For air circulation inside the thermostat, ventilation holes must be provided in it, while there must be at least two holes located above and below on opposite walls, ensuring free passage of air, which will ensure timely response of the bimetallic plate to temperature changes.

The movable contact plate can be made of copper. Copper has a high electrical conductivity, which allows it to be made thinner, due to which the movable contact plate is more flexible and less deformed, which leads to product durability. The electrical outlet plate and the fixed plate can be made of brass, which is a durable material that ensures the reliability of the structure.

A terminal block (18) can be located on the base plate, which allows you to mount network wires and wires for connecting heating equipment. If necessary, the wires can be easily removed for replacement, which increases the maintainability and reliability of the product. Also, a switch (17) can be located on the base plate, due to which it is possible to make a forced break in the circuit.

To adjust the attraction of the magnet and the adjustable cylindrical stop, the stop is made with a slot (13). The slot is made star-shaped to provide a larger area of contact with the mounting tool. A large contact area ensures the tool is securely held and, accordingly, adjusted.

The reliability and durability of the proposed design also depends on the quality of the interconnection of circuit elements. In order to increase the reliability of the connection, a ribbed connection is used (generally shown in Fig. 5). The peep connection has a significant number of advantages, such as the preservation of the texture of the material, the absence of deformation (as in the case of a connection by heating), the connection does not loosen and does not fly out. With a rib joint, the materials do not change their properties at the joint, as under the influence of welding, the joint becomes resistant to corrosion. It turns out a strong connection of elements, regardless of the properties of the materials. With the help of the operation of creating a pebble connection, the material is connected firmly and reliably, regardless of its type, properties, and so on. There is no need to drill holes, no fasteners are required. When connecting two elements by the method of pecking, it is allowed to use additional holding means, for example, special glue. The use of embossed joints during installation makes production less energy-intensive, and at the same time simpler, faster and more efficient.

As a result of a change in the length of the curved bimetallic plate under the influence of temperature, stresses arise at the point of attachment of the curved bimetallic plate with the lever plate (11), and at the point of fixation of the movable contact plate and the electrical output plate (12), on the other side. The most important thing is to ensure a reliable connection of circuit elements in these places. In order to ensure a reliable connection, a ribbed connection is used. At the same time, to increase reliability, two pebble joints can be used, located on the same axis perpendicular to the axis of the bimetallic plate, which excludes the mobility of the connection along the line of location of the two pebbles. The curved bimetallic plate and the movable contact plate are of considerable length. The plates, when bent, act like a lever. As a result, in the place where the curved bimetallic plate is attached to the lever plate, and in the place where the contact plate of the movable and the electrical output plate are fixed, critical forces arise, directed perpendicular to the axis of the curved bimetallic plate, which are compensated due to the presence of two peep joints. In this case, the puklevochny connection can be additionally strengthened by resistance or spot welding, to increase reliability.

Also, when fastening circuit elements, such as an adjustable cylindrical limiter and an adjusting lever to the base plate, a peep connection can also be used, which increases the reliability of the structure as a whole.

Thus, the use in the design of the thermoregulator of a bulging connection makes it possible to achieve the claimed technical result, namely, an increase in the reliability of the design by increasing strength and durability.

The inventive thermostat can be used to provide automatic temperature control, including in office, industrial and residential premises. It is manufactured, in particular, at enterprises producing electrical household appliances.

Claims (12)

1. A temperature controller comprising a body, a base plate, a curved bimetallic plate, a lever plate, an adjusting lever, a permanent magnet, a movable contact plate, an electrical output plate, a fixed contact plate and an adjustable cylindrical limiter, where the base plate is fixed in the body, fixed on the base plate an adjusting lever connected to a lever plate, which, in turn, is connected to a curved bimetallic plate connected to a movable contact plate, fixed to the base plate by means of an electric output plate, a fixed contact plate and an adjusting cylindrical limiter are also fixed to the circuit board, having ferromagnetic properties, while the permanent magnet is fixed on a curved bimetallic plate, characterized in that the end of the curved bimetallic plate is fixed to the lever plate using a bulge connection, as well as fixing the contact The actuating plate movable to the electrical outlet plate is made with the help of an embossed connection. 2. The temperature controller according to claim 1, characterized in that at least two spigot connections are used in each of the junctions. 3. The thermostat according to claim 2, characterized in that the bulging connections are located one under the other. 4. The thermostat according to claim 1, characterized in that the adjustable cylindrical limiter is fixed on the base plate using a bulge connection. 5. The thermostat according to claim 1, characterized in that it additionally contains a terminal block. 6. The thermostat according to claim 1, characterized in that the adjusting cylindrical limiter is made with a star-shaped slot. 7. Temperature controller according to claim 1, characterized in that the movable contact plate is made of copper. 8. Temperature controller according to claim 1, characterized in that the electrical output plate is made of brass. 9. Temperature controller according to claim 1, characterized in that the fixed contact plate is made of brass. 10. Thermostat according to claim 1, characterized in that the adjusting lever is fixed to the base plate by means of a bulge connection. 11. Temperature controller according to claim 1, characterized in that the bulge connection is additionally reinforced by spot welding. 12. The thermostat according to claim 1, characterized in that the bulging connection is additionally reinforced by contact welding.

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