RU129274U1 - Thermostat - Google Patents

Abstract

The utility model relates to the construction of a temperature controller, which can be used to adjust the temperature of the air in the room. The objective of the proposed solution is to increase the usability, simplify the process of putting the thermostat into operation and increase safety when connecting the heater to the thermostat and the thermostat to the network. To solve this problem, the thermostat containing the housing is supplemented with a socket 3 with a plug 4. In this case, the first contact 7 of the plug 4 is connected to one of the contacts 8 of the thermostat, the second contact 9 of the plug 4 is connected to one of the contacts 10 of the socket 3, and the second contact 11 of the thermostat connected to the second contact 12 of the socket 3. The combined housing can be made in the form of a parallelepiped with two recesses 1 and 2, in one mounted socket 3 and plug 4, and in the second mounted thermostat. As a housing for such a thermostat, a dual outlet housing can be used. Socket 3 of such a thermostat must be configured to connect the heater cord plugs to it. 3 p.p., 3 fig.

Description

The utility model relates to the design of a temperature controller, which can be used to adjust the temperature in a room for any purpose.

Thermostats can be electronic and mechanical. Each electronic temperature controller contains a temperature sensor. The signal from the sensor is fed to the actuator, which controls the flow of the heating agent. For example, temperature sensors in the form of thermistors and thermocouples are known (see the website of the same name on the Internet). In mechanical temperature controllers, electromechanical temperature sensors using the principle of operation of a bimetallic plate are most widely used. When the temperature changes, the plate bends and opens the contacts of the electrical circuit of the actuator (see, for example, IMIT sensors on the Internet at www.imit.it

The temperature controller found on the Internet at the URL: http: //www.chipdip.ru/video.aspx? Vid = ID000287867 & groupid = 1619.23.9.201 Or. The temperature regulator belongs to the category of electronic ones, it works on a microcircuit, for which a special power source (zener diode) is needed, because microcircuit output parameters are highly dependent on power surges and voltage drops. To close / open the contacts of the microcircuit, a relay is used, i.e. an additional node, which makes the device more complicated and more expensive, and also increases the size.

Thermostats are divided into built-in and remote. The built-in thermostats are located directly in the heater, the remote thermostat is located at a distance from the heater. When using external temperature controllers, temperature sensors of electronic temperature controllers, as well as electromechanical temperature controllers, it is recommended to install in a zone free from direct exposure to heating appliances, in a convenient place on the wall in the immediate vicinity of the electrical outlet.

Known temperature controllers, including the prototype, are housed in a square-shaped case. To connect the heater to a remote thermostat located at a distance from it, it is necessary to remove the cover of the thermostat and connect wires from the heater to its contacts, having previously released them from the cord plug. Then, to the second pair of contacts of the thermostat, you must connect the wires, which then need to be connected to the electrical network.

This creates inconvenience when connecting and operating the thermostat.

The objective of the proposed solution is to increase the usability, simplify the process of putting the thermostat into operation and increase safety when connecting the heater to the thermostat and the thermostat to the network.

To solve this problem, in a temperature regulator containing a housing in which a temperature sensor and a temperature controller are located, the temperature sensor is made in the form of a bimetallic plate, and a socket with a plug is additionally mounted in the case, while the first contact of the plug is connected to one of the contacts of the bimetallic plate, the second contact of the plug connected to one of the contacts of the socket, and the second contact of the bimetallic plate is connected to the second contact of the socket.

The combined body of the thermostat can be made in the form of a parallelepiped with two recesses, in one a socket with a plug is mounted, and in the second a thermostat is mounted. As a housing for such a thermostat, a dual outlet housing can be used.

The thermostat socket is made with the possibility of connecting the plugs of the heater cord to it.

Using the temperature regulator of the proposed design will allow you to connect to the electric network simultaneously the heater and thermostat, as well as the heater to the thermostat. This eliminates the need to mount on the wall a separate outlet and a separate thermostat, as well as carry out electrical work (disassemble the thermostat housing, strip the contacts, fix the wires in the terminal box, etc.). In addition, the safety when using electrical appliances is increased, since in this case the possibility of incorrect connection of wires is excluded, which may result in a short circuit and electric shock, when the work on connecting the thermostat and heater is carried out under voltage.

The proposed temperature controller is presented in the drawings, which show:

figure 1 - General view of the temperature regulator in front,

figure 2 is a General view of the temperature regulator from the back.

figure 3 - electrical diagram of the connection of the thermostat to the outlet and plug.

The temperature controller (figures 1 and 3) contains a housing in the form of a horizontally elongated parallelepiped. The housing consists of two cells 1 and 2. In the first 1 cell, a socket 3 with a power plug 4 is mounted. In the second cell 2, an electromechanical thermal sensor is installed, containing a bimetallic plate 5 and a temperature regulator 6 (Fig. 3) connected to the contacts of the socket and plug of the cell 1 (FIG. 3). In this case, the first contact 7 of the plug 4 is connected to the first contact 8 of the thermostat, the second contact 9 of the plug 4 is connected to the first contact 10 of the socket 3, and the second contact 11 of the socket 3 is connected to the second contact 12 of the thermostat.

The device operates as follows. The thermostat plug 4 is inserted into any outlet in the electrical network available in the room at a distance from the heater.

The plug of the heater power cord located at a distance from the thermostat is inserted into the outlet 3 of the thermostat. In this case, the electric circuit is closed, and both the heater and thermostat are connected to the mains at the same time. On the controller 6, the set temperature for heating the air in the room is set.

After turning on the heater, the room temperature rises. The bimetallic plate 5 of the thermostat is also heated, which at a certain temperature bends and opens the electric circuit (Fig. 3). As a result of this, voltage is not supplied to the heater and its heating stops. As the air cools in the room, the bimetallic plate 5 of the thermostat expands and at the specified temperature closes the electric circuit again. As a result, voltage is supplied to the heater, which begins to heat the air in the room.

Thus, the proposed design of the thermostat, combined in one housing with a plug and socket, is much more convenient, both when installing the thermostat, and when operating the heater. This simplifies the procedure for connecting the heater to the thermostat, eliminates the mounting of an excess device on the wall, and also allows you to get rid of excess wires in the room (wire from the outlet to the thermostat). And, in addition, it increases the safety of connecting electrical appliances.

Claims (3)

1. A temperature controller comprising a housing in which a temperature sensor and a temperature controller are located, characterized in that the temperature sensor is made in the form of a bimetallic plate, and a socket with a plug is additionally mounted in the case, while the first contact of the plug is connected to one of the contacts of the bimetallic plate, the second contact the plug is connected to one of the contacts of the socket, and the second contact of the bimetallic plate is connected to the second contact of the socket. 2. The temperature controller according to claim 1, characterized in that the combined housing is made in the form of a parallelepiped with two recesses, in one mounted socket with a plug, and in the second mounted temperature controller. 3. The temperature controller according to claim 1, characterized in that the socket of the temperature controller is configured to connect a plug of the heater cord to it.

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