WO2014031027A1 - Temperature sensor (alternatives) - Google Patents

Abstract

The utility model relates to control and measuring technology and can be used for controlling the temperature in a cooling system of an internal combustion engine. The technical result of the proposed utility model is an increase in the safety of the device. The utility model is realized as follows. In the event of a change in the temperature of a medium (the coolant in an engine) as a result of contact of a measuring part with the medium, the temperature change is transmitted via the material of the measuring part of the device to a thermally sensitive element, for example, a thermistor. The resistance of the thermally sensitive element is changed and transmitted via wires and electric contacts to a measuring unit where the data produced are converted into temperature readings in accordance with a specified characteristic.

Description

 Temperature sensor (options) Technical field The utility model relates to measuring and control technology and can be used to control the temperature in the cooling system of an internal combustion engine.

State of the art

A known device is a temperature sensor of a coolant of an automobile engine (RF patent N ° 33438). The temperature sensor of the coolant of an automobile engine contains a sensing element located in a housing provided with a threaded element, as well as means for connecting the sensing element to the measuring unit. The housing is hexagonal with a threaded portion for mounting on an engine. The sensitive element is made in the form of a thermistor and is isolated from the housing by an insulating gasket and installed in the measuring part of the housing. The internal cavity of the measuring part of the housing is filled with heat-conducting paste. The thermistor is equipped with two terminals attached to the pins of the electrical contacts.

 A disadvantage of the known technical solution is the heating of the housing of the device in the place of its installation and fastening.

The closest technical solution is a temperature sensor (RF patent N ° 105366, priority date 03.03.2011, publication date 10.06.2011). The temperature sensor contains a housing element, a heat-sensitive element with conductors and electrical contacts, a heat transfer element and a connecting part. The housing element contains a series-connected measuring part, the installation part and the outer part. In this case, the outer part from the side opposite the mounting part is connected to the connecting part. A temperature-sensitive element is placed inside the measuring part, connected by means of conductors placed inside the housing element, with electrical contacts brought out of the housing element from the side of the connecting part. The thermosensitive element is surrounded by heat transfer an element placed inside the housing element at least in the measuring part. The housing element and the heat transfer element are made of heat-conducting plastic. In this case, the housing element and the heat transfer element are made at the same time.

 The disadvantage of the prototype is the ability to heat the outer part of the device.

 The technical result of the proposed utility model is to increase the security of the device. Disclosure of invention

This goal is achieved due to the fact that in the temperature sensor according to the first embodiment, comprising a housing element, a heat-sensitive element with conductors and electrical contacts, and the housing element contains a series-connected measuring part, an installation part and an external part, a temperature-sensitive element is placed inside the measuring part, connected by means of conductors located inside the housing element, with electrical contacts brought out of the housing element on the side of the outer part, opposite to the connection of the outer part with the installation part, the housing element in the measuring part and in the installation part is made of plastic with a thermal conductivity of more than 1.0 W / (mK), while the housing element of the measuring part and the installation part is made in one piece, case the element of the external part of the device is made of plastic with a thermal conductivity of less than 1.0 W / (mK); according to the second embodiment, in a temperature sensor containing a housing element, a heat-sensitive element with conductors and electrical contacts, the housing element comprising a series-connected measuring part, an installation part and an external part, a temperature-sensitive element placed by means of conductors located inside the housing element is placed inside the measuring part , with electrical contacts brought out of the housing element from the side of the external part opposite to the connection eniyu outer portion with the mounting portion, the body member of the measuring part is made of plastic with a thermal conductivity of more than 1, 0 W / (mK), the outer body member and the mounting portion of the device made of plastic with a thermal conductivity of less than 1.0 W / (mK); in the temperature sensor containing the housing element, a heat-sensitive element with conductors and electrical contacts, the housing element comprising a series-connected measuring part, the mounting part and the external part, inside the measuring part there is a temperature-sensitive element connected by electrical conductors located inside the housing element with electrical contacts brought out of the housing element from the side of the external part opposite to the connection of the external part with the installation second part shell member made of plastic with a thermal conductivity less than 1.0 W / (mK).

Brief Description of the Drawings

The utility model is illustrated by the drawings of FIG. 1-3, in FIG. 1 shows a section through a device according to a first embodiment; FIG. 2 shows a section through the device according to the second embodiment; FIG. 3 shows a section of the device according to the third embodiment.

An embodiment of the invention The drawing shows: the connecting part 1, the electrical contact 2, the conductor 3, the heat-sensitive element 4, the measuring part 5, the mounting part 6, the side surface 7, the outer part 8.

 The main elements of the device according to the first embodiment are the heat-sensitive element 4, conductors 3, electrical contacts 2 and the housing element. The device consists of several sequentially located functional parts of the housing element, such as the outer part 8, the installation part 6 and the measuring part 5, and also in the particular case, the device can be equipped with a connecting part 1.

The thermosensitive element 4 is a thermocouple used in measuring and converting devices for measuring temperature. As the heat-sensitive element 4 can be used, for example, a thermistor, thermocouple, thermopile or bolometer. Heat sensitive element 4 is located inside the measuring part 5. The heat-sensitive element 4 is equipped with two conductors 3.

 Conductors 3 are a solid body in which there are free charge carriers, that is, charged particles that can freely move inside this body. In the particular case, as conductors 3 can be used, for example, metal wire. Conductors 3 are located inside the device. Conductors 3 connect the temperature-sensitive element 4 with electrical contacts 2.

 Electrical contacts 2 are devices for closing an electric circuit through their interaction with the corresponding contacts (electrical) of the measuring device when the device is connected to the measuring unit. Electrical contacts 2 are located on the outside of the device from the side of the external part 8, opposite the mounting part 6. Electrical contacts2 are connected to the conductors 3. Electrical contacts 2 in a particular case are located in the connecting part 1 of the device, in case of completion of the device with the connecting part 1.

 The outer part 8 is a part of the device, designed for ease of installation of the device in the hole in the tank. A tank is understood to mean various tanks or pipelines into which the device is installed during operation, including in systems with internal combustion engines. In these containers is the medium whose temperature must be measured. The external part 8 after installing the device is located outside the tank. In cross section perpendicular to the conductors 3, in the case of installing the device by means of a threaded connection (made on the side surface 7 described below), the outer part 8 can be made, for example, quadrangular or hexagonal, for the convenience of gripping the outer part 8 with a suitable wrench. The outer part 8 of the device is made of plastic with a thermal conductivity of not more than 1.0 W / (m K).

Installation part 6 is designed to install the device in the hole in the tank. In a particular case, the installation part 6 is made cylindrical, with a circular cross section in a plane perpendicular to the conductors 3. The installation part 6 is provided with a side surface 7 that is farthest from the conductors 3. The installation part 6 is made of any heat-conducting plastic with thermal conductivity of more than 1.0 W / (m K), for example, plastics series D5108 from Cool Polymers, Inc, USA, having a thermal conductivity of 10.0 W / (m K) according to the information provided on the website http: // wwwxoolpolymers om / Files / DS / Datasheet_d5108.pdf.

 The lateral surface 7 is made with the possibility of fixing the device in the hole made in the tank. In a particular case, a thread can be made on the lateral surface 7, the counterpart of which is made in a hole made in the container.

 The measuring part 5 is designed to measure the temperature of the medium. By medium is meant a gaseous or liquid medium, the temperature of which must be measured, for example, coolant in an engine. The measuring part 5 is at least partially in contact with the specified medium. In the particular case, the measuring part 5 is cylindrical. Measurement part 5 is made of any thermally conductive plastic with a thermal conductivity of more than 1.0 W / (m K), for example, D5108 series plastics from Cool Polymers, Inc., USA, having a thermal conductivity of 10.0 W / (m K) according to the information given on website http://www.coolpolymers.com/Files/DS/Datasheet_d5108.pdf.

 The measuring part 5 of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the mounting part 6 of the device, in the direction perpendicular to the conductors 3. The mounting part 6 of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the outer part 8 of the device, in the direction perpendicular to the conductors 3.

 In this case, the installation part 6 and the measuring part 5 can be performed at the same time, i.e. as a single item.

 The main elements of the device according to the second embodiment are the heat-sensitive element 4, conductors 3, electrical contacts 2 and the housing element. The device consists of several sequentially located functional parts of the housing element, such as the outer part 8, the installation part 6 and the measuring part 5, and also in the particular case, the device can be equipped with a connecting part 1.

The thermosensitive element 4 is a thermocouple used in measuring and converting devices for measuring temperature. As a heat-sensitive element 4 can be used, e.g. thermistor, thermocouple, thermopile, or bolometer. The heat-sensitive element 4 is located inside the measuring part 5. The heat-sensitive element 4 is equipped with two conductors 3.

 Conductors 3 are a solid body in which there are free charge carriers, that is, charged particles that can freely move inside this body. In the particular case, as conductors 3 can be used, for example, metal wire. Conductors 3 are located inside the device. Conductors 3 connect the temperature-sensitive element 4 with electrical contacts 2.

 Electrical contacts 2 are devices for closing an electric circuit through their interaction with the corresponding contacts (electrical) of the measuring device when the device is connected to the measuring unit. Electrical contacts 2 are located outside the outer part 8, opposite the mounting part 6. Electrical contacts 2 are connected to the conductors 3. Electrical contacts 2 in a particular case are located in the connecting part 1 of the device, in the case of the device with the connecting part 1.

 The outer part 8 is a part of the device, designed for ease of installation of the device in the hole in the tank. The capacity refers to the various containers or pipelines into which the device is installed during operation. In these containers is the medium whose temperature must be measured. The external part 8 after installing the device is located outside the tank. In cross section perpendicular to the conductors 3, in the case of installing the device by means of a threaded connection (made on the side surface described below), the outer part 8 can be made, for example, quadrangular or hexagonal, for the convenience of gripping the outer part 8 with a suitable wrench. The outer part 8 of the device is made of plastic with a thermal conductivity of not more than 1.0 W / (m K).

Installation part 6 is designed to install the device in the hole in the tank. In a particular case, the installation part 6 is made cylindrical, with a circular cross section in a plane perpendicular to the conductors 3. The installation part 6 is provided with a side surface 7 that is farthest from the conductors 3. Installation part 6 is made of any heat-conducting plastic with a thermal conductivity of not more than 1.0 W / (m K).

 The lateral surface 7 is made with the possibility of fixing the device in the hole made in the tank. In a particular case, a thread can be made on the lateral surface 7, the counterpart of which is made in a hole made in the container.

 The measuring part 5 is designed to measure the temperature of the medium. By medium is meant a gaseous or liquid medium, the temperature of which must be measured, for example, coolant in an engine. The measuring part 5 is at least partially in contact with the specified medium. In the particular case, the measuring part 5 is cylindrical. The measuring part 5 is made of any thermally conductive plastic with a thermal conductivity of more than 1.0 W / (m K), for example plastics such as polyphenylene sulfide, in particular the D5108 series from Cool Polymers, Inc., USA, having a thermal conductivity of 10.0 W / (m K ) according to the information provided on the website http://www.coolpolymers.com/Files/DS/Datasheet_d5108.pdf.

 The measuring part 5 of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the mounting part 6 of the device, in the direction perpendicular to the conductors 3. The mounting part 6 of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the outer part 8 of the device, in the direction perpendicular to the conductors 3.

 The main elements of the device according to the third embodiment are the heat-sensitive element 4, conductors 3, electrical contacts 2 and the housing element. The device consists of several sequentially located functional parts of the housing element, such as the outer part 8, the installation part 6 and the measuring part 5, and also in the particular case, the device can be equipped with a connecting part 1.

The thermosensitive element 4 is a thermocouple used in measuring and converting devices for measuring temperature. As the heat-sensitive element 4 can be used, for example, a thermistor, thermocouple, thermopile or bolometer. Heat sensitive element 4 is located inside the measuring part 5. The heat-sensitive element 4 is equipped with two conductors 3.

 Conductors 3 are a solid body in which there are free charge carriers, that is, charged particles that can freely move inside this body. In the particular case, as conductors 3 can be used, for example, metal wire. Conductors 3 are located inside the device. Conductors 3 connect the temperature-sensitive element 4 with electrical contacts 2.

 Electrical contacts 2 are devices for closing an electric circuit through their interaction with the corresponding contacts (electrical) of the measuring device when the device is connected to the measuring unit. Electrical contacts 2 are located outside the outer part 8, opposite the mounting part 6. Electrical contacts 2 are connected to the conductors 3. Electrical contacts 2 in a particular case are located in the connecting part 1 of the device, in the case of the device with the connecting part 1.

 The outer part 8 is a part of the device, designed for ease of installation of the device in the hole in the tank. The capacity refers to the various containers or pipelines into which the device is installed during operation. In these containers is the medium whose temperature must be measured. The external part 8 after installing the device is located outside the tank. In cross section perpendicular to the conductors 3, in the case of installing the device by means of a threaded connection (made on the side surface described below), the outer part 8 can be made, for example, quadrangular or hexagonal, for the convenience of gripping the outer part with an appropriate wrench. The outer part 8 of the device is made of plastic with a thermal conductivity of not more than 1.0 W / (m K).

Installation part 6 is designed to install the device in the hole in the tank. In a particular case, the installation part 6 is made cylindrical, with a circular cross section in a plane perpendicular to the conductors 3. The installation part 6 is provided with a side surface 7 that is farthest from the conductors 3. The installation part 6 is made of any heat-conducting plastic with a thermal conductivity of not more than 1.0 W / (m K). The lateral surface 7 is made with the possibility of fixing the device in the hole made in the tank. In a particular case, a thread can be made on the lateral surface 7, the counterpart of which is made in a hole made in the container.

 The measuring part 5 is designed to measure the temperature of the medium. By medium is meant a gaseous or liquid medium, the temperature of which must be measured, for example, coolant in an engine. The measuring part 5 is at least partially in contact with the specified medium. In the particular case, the measuring part 5 is cylindrical. The measuring part 5 is made of any heat-conducting plastic with a thermal conductivity of not more than 1.0 W / (m K).

 The measuring part of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the installation part 6 of the device, in the direction perpendicular to the conductors 3. The installation part 6 of the device has dimensions, in the direction perpendicular to the conductors 3, smaller than the dimensions of the outer part 8 of the device, in perpendicular to the conductors 3.

 In this case, the outer part 8, the installation part 6 and the measuring part 5 can be performed at the same time, i.e. as a single item.

In a particular case, the device according to the first embodiment and / or the second embodiment and / or the third embodiment may be provided with a connecting part 1, as shown in FIG. 1. The connecting part 1 is a part of the device, made with the possibility of connection with the mating part (socket) of the measuring unit. The connecting part 1 is connected to the external part 8 from the side of the external part 8, opposite to the connection of the external part 8 with the mounting part 6. The connecting part 1 is configured to accommodate electrical contacts 2. In this case, the connecting part 1 is made to allow access of the corresponding contacts (electrical) measuring unit to the electrical contacts 2 of the device from the side opposite to the connection of the connecting part 1 with the outer part 8. The connecting part 1 with Proposition therein electrical contacts 2 represents the electromechanical part of an apparatus designed for rapid electrical connection (disconnect) electric circuit (devices with a measuring unit). The connecting part 1 of the device is made of plastic with a thermal conductivity of not more than 1.0 W / (m K).

Industrial applicability

The utility model according to the first embodiment is implemented as follows.

 Conductors 3 with electrical contacts 2 are connected to the heat-sensitive element 4. The heat-sensitive element 4 with conductors 3 and electric contacts 2 is placed in the mold for casting the measuring part 5 and the mounting part 6. In this case, the measuring part 5 and the mounting part 6 are made as one plastic part with a thermal conductivity of more than 1.0 W / (mK). The form is made repeating the configuration of the outer part 8, the mounting part 6 and the measuring part 5. The user places the heat-sensitive element 4 with conductors 3 and electrical contacts 2 in the form so that the electrical contacts 2 are located outside the form. The mold is filled with plastic with a thermal conductivity of more than 1.0 W / (mK) in a heated fluid state. The mold is filled to the edge of the installation part 6, which is connected to the external part 8. After the thermally conductive plastic is hardened, a measuring part 5 and installation part 6 are formed with the thermosensitive element 4 located inside the measuring part 5 and the parts of conductors 3 located inside the installation part 6. Next, the mold is filled with plastic with a thermal conductivity of less than 1.0 W / (mK). In this case, the electrical contacts 2 are located outside the device. After solidification, the outer part 8 of the device is formed. The device is removed from the mold.

 The utility model according to the second embodiment is implemented as follows.

Conductors 3 with electrical contacts 2 are connected to the heat-sensitive element 4. The heat-sensitive element 4 with conductors 3 and electric contacts 2 is placed in the mold for casting the measuring part 5. In this case, the measuring part 5 is made as one piece of plastic with a thermal conductivity of more than 1.0 W / (mk). The form is executed repeating the configuration of the outer part 8, the installation part 6 and the measuring part 5. User places the thermosensitive element 4 with conductors 3 and electrical contacts 2 in the mold so that the electrical contacts 2 are located outside the mold. The mold is filled with plastic with a thermal conductivity of more than 1.0 W / (mK) in a heated fluid state. The mold is filled to the edge of the measuring part 5 connected to the mounting part 6. After the thermally conductive plastic has solidified, the measuring part 5 with the thermally sensitive element 4 located inside the measuring part 5 is formed. Next, the mold is filled with plastic with a thermal conductivity of less than 1.0 W / (mK). When this electrical contacts 2 are located outside the device. After hardening, an installation part 6 and an external part 8 of the device are formed. The device is removed from the mold.

 The utility model according to the third embodiment is implemented as follows.

 The user connects the conductors 3 with the electrical contacts 2 to the temperature-sensitive element 4. The user places the temperature-sensitive element 4 with the conductors 3 and the electrical contacts 2 in the mold for casting the housing element. The form is made repeating the configuration of the connecting part 1, the outer part 8, the mounting part 6 and the measuring part 5. The user places the heat-sensitive element 4 with conductors 3 and electrical contacts 2 in the form so that the electrical contacts 2 are located outside the form in the region of the future connecting part 1 The user pours into the mold a plastic with a thermal conductivity of less than 1.0 W / (mK) in a heated fluid state. After the plastic has hardened, the user removes the device from the mold.

The user installs the device according to the first embodiment or the second embodiment or the third embodiment in the hole in the required place, for example, in a tank with coolant in the internal combustion engine system. To do this, the user passes the device through the opening of the measuring part 5 into the tank. The user holds the device by the outer part 8, for example with a wrench. The user secures the device in the hole, for example with an adhesive or threaded connection made on the side surface 7 and the surface of the hole in the tank. While the side surface 7 is adjacent to the surface of the hole. The outer part 8 with electrical contacts 2 are located outside the tank. Measuring Part 5 is at least partially located inside the tank. The device is connected to the measuring unit, i.e. in the presence of the connecting part 1, the connecting part 1 is placed in the counterpart (socket) of the measuring unit, while the circuit is closed due to the closure of the electrical contacts 2 with the corresponding contacts (electrical) of the measuring unit.

 When the temperature of the medium (coolant in the engine) changes due to the contact of the measuring part 5 with the medium, the temperature change is transmitted through the material of the measuring part 5 of the device to the thermally sensitive element 4, for example, a thermistor. The resistance of the thermosensitive element 4 is changed and transmitted through the conductors 3 and the electrical contacts 2 to the measuring unit, where the received data is converted to temperature readings in accordance with a given characteristic. In this case, if it is necessary to remove the device, for example to replace it, the possibility of burns to the user is prevented, i.e. increased safety when using the device, due to the implementation of at least the outer part (for which it is removed) of the plastic housing element with a thermal conductivity of less than 1.0 W / (mK).

 Thus, the implementation of the device consisting of a thermosensitive element with conductors and electrical contacts and a housing element with a measuring part, an installation part and an external part connected in series provides an increase in the safety of the device by performing the external part in the first embodiment, the external part and installation in the second embodiment parts, according to the third embodiment of the entire housing element made of plastic with a thermal conductivity of less than 1.0 W / (m).

Claims

Utility Model Formula

1. A temperature sensor comprising a housing element, a heat-sensitive element with conductors and electrical contacts, the housing element comprising a series-connected measuring part, an installation part and an external part, a temperature-sensitive element placed by electrical conductors located inside the housing element with electrical contacts contacts brought out of the housing element from the side of the external part opposite to the connection of the external part with the installation part, the housing element in the measuring part and in the installation part is made of plastic with a thermal conductivity of more than 1.0 W / (mK), while the housing element of the measuring part and installation part are made at the same time, characterized in that the housing element of the outer part of the device is made of plastics with a thermal conductivity of less than 1.0 W / (mK).

 2. A temperature sensor comprising a housing element, a heat-sensitive element with conductors and electrical contacts, the housing element comprising a series-connected measuring part, a mounting part and an external part, a temperature-sensitive element connected by electrical conductors located inside the housing element to electrical elements contacts brought out of the housing element from the side of the external part opposite to the connection of the external part with the installation nd part, the body member of the measuring part is made of plastic with a thermal conductivity greater than 1.0 W / (mK), characterized in that the body member and the outer portion of the mounting portion of the device are made of plastic with a thermal conductivity less than 1.0 W / (mK).

3. A temperature sensor comprising a housing element, a heat-sensitive element with conductors and electrical contacts, the housing element comprising a series-connected measuring part, an installation part and an external part, a temperature-sensitive element connected by electrical conductors located inside the housing element to electrical elements contacts brought out of the housing element from the side of the external part opposite to the connection external part with an installation part, characterized in that the housing element is made of plastic with a thermal conductivity of less than 1.0 W / (mK).