CN222505629U - Temperature sensor assembly - Google Patents

Abstract

The utility model discloses a temperature sensor assembly, which comprises a disk surface, and further comprises a first installation assembly, a second installation assembly and a third installation assembly, wherein the first installation assembly comprises a threaded plate which is arranged on the periphery of the disk surface in an array mode, a threaded hole is formed in the surface of the threaded plate, a bolt is inserted into the threaded hole, the second installation assembly comprises an L plate which is arranged on one side of the disk surface, a threaded groove is formed in an extending part of the L plate, a screw is arranged in the threaded groove, and the third installation assembly comprises a rod piece which is arranged on one side of the disk surface, and a sucker is arranged on one side of the rod piece. According to the annular mounting device, the annular mounting effect is achieved through the annular first mounting assembly and the threaded holes on the threaded plate and the bolts in a butt-joint mounting mode aiming at the annular mounting unit. For the bracket type equipment to be detected, the L-shaped plate is hung on the side edge of the equipment and is connected and fixed in a mode that a screw penetrates through a thread groove, and the suspension type equipment to be detected is fixedly installed in a mode that a sucker arranged at the top of a rod piece adsorbs.

Description

Temperature sensor assembly

Technical Field

The utility model relates to the technical field of temperature sensors, in particular to a temperature sensor assembly.

Background

A temperature sensor assembly is an important electronic component for measuring temperature and converting it into a processable electrical signal. Temperature sensor assemblies play a vital role in many applications, such as industrial control, medical equipment, environmental monitoring, and automation systems. The temperature sensor assembly is typically comprised of two parts, a sensing element and a conversion circuit. The sensing element is responsible for sensing the external temperature, and the conversion circuit converts the electric signal output by the sensing element into a processable digital or analog signal. According to different working principles, the temperature sensor can be classified into a thermocouple, a thermistor, an integrated temperature sensor and the like. Thermocouples are common temperature sensors, and the working principle is based on the seebeck effect, namely that when two conductors of different materials are contacted, electromotive force is generated, and the magnitude of the electromotive force is related to the temperature of a contact point. The thermistor measures temperature by utilizing the characteristic that the resistance of the semiconductor changes along with the temperature, and has the advantages of high response speed, high sensitivity and poor long-term stability. The integrated temperature sensor integrates the temperature sensor and the signal processing circuit on one chip, and has the advantages of small volume, high precision, good linearity and the like. When selecting the temperature sensor assembly, parameters such as the type, the measuring range, the precision, the stability, the response speed and the like of the sensor need to be considered according to actual requirements. Meanwhile, attention is paid to the installation mode, connection mode, compatibility with a measurement system and other factors of the sensor. In summary, the temperature sensor assembly is one of the essential elements essential in the modern industry and in the field of technology. With the continuous development of technology, the performance and the precision of the temperature sensor assembly are also continuously improved, and a more reliable and accurate temperature measurement solution is provided for various applications.

In the chinese patent application No. CN111458052B, a color-changing OLED temperature sensor assembly is disclosed, which comprises a color-changing OLED device comprising a substrate, an encapsulation layer, a first and a second electrode between the substrate and the encapsulation layer, a first and a second light-emitting layer between the two electrodes and respectively emitting light having a first and a second intrinsic peak wavelength differing by at least 30nm, and an external electric drive, which is operated at a first and a second temperature to respectively emit light of a first and a second color, and which has a first color coordinate point (u 1, v 1) and a second color coordinate point (u 2, v 2) on a CIE 1976 color coordinate diagram, respectively, the duv value between the two color coordinate points being greater than 0.006, the external electric drive providing a constant current density to the color-changing OLED device. The assembly utilizes the characteristic that the luminous color changes along with the temperature under the constant current density driving of the color-changing OLED device, so that the temperature of a detected object or the surrounding environment is determined.

However, the temperature sensor often needs to be installed at different working positions, and the installation mode of the temperature sensor in the prior art is single, so that the temperature sensor in the prior art cannot be adaptively installed on the surface of equipment under different working conditions.

Disclosure of utility model

The utility model aims to solve the defects in the prior art and provides a temperature sensor assembly.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a temperature sensor assembly comprising a disk surface, further comprising:

The first installation component comprises a thread plate which is arranged on the periphery of the disk surface in an array manner, the surface of the thread plate is provided with a threaded hole, and bolts are inserted and installed in the threaded hole;

The second installation component comprises an L plate installed on one side of the disk surface, a thread groove is formed in the extending part of the L plate, and a screw is installed in the thread groove;

the third installation component comprises a rod piece arranged on one side of the disc surface, and a sucker is arranged on one side of the rod piece.

Further technical scheme still includes:

the first measuring assembly comprises a chip controller arranged on one side of the disc surface, a telescopic rod is arranged on one side of the chip controller in a communicating mode, a measuring head is arranged at one end of the telescopic rod, and a limiting rod is arranged on one side of the telescopic rod.

Further technical scheme still includes:

The second measuring assembly comprises induction plates arranged on two sides of the disc surface.

Further technical scheme, the structure of response piece is semi-circular paster structure.

Further technical scheme, one side of quotation is provided with the fillet.

According to a further technical scheme, one side of the disk surface is communicated with a chip controller through a wire.

Compared with the prior art, the utility model provides a temperature sensor assembly, which has the following beneficial effects:

Through the annular first installation component that sets up, to annular installation unit, realized annular installation's effect through screw hole and the mode of bolt butt joint installation on the screw plate. For the bracket type equipment to be detected, the L-shaped plate is hung on the side edge of the equipment and is connected and fixed in a mode that a screw penetrates through a thread groove, and for the suspension type equipment to be detected, the fixed installation is realized in a mode that a sucker arranged at the top of a rod piece adsorbs. The device realizes the effect of multifunctional adaptation installation, and solves the problems existing in the prior art in a targeted manner.

The device realizes the effect of the applied induction measurement of the planar heat radiation equipment through the semicircular induction piece device, and the second measurement component arranged at the end part of the telescopic rod realizes the effect of depth detection, namely the device realizes the multifunctional detection effect and avoids the technical problem of inaccurate detection caused by single detection unit.

Drawings

FIG. 1 is a schematic diagram of a temperature sensor assembly according to the present utility model;

FIG. 2 is a schematic view of a mounting assembly of a temperature sensor assembly according to the present utility model;

FIG. 3 is a schematic top view of a temperature sensor assembly according to the present utility model;

fig. 4 is a schematic structural diagram of a bottom view of a temperature sensor assembly according to the present utility model.

In the figure:

1. The device comprises a disc surface, 2, a round angle, 3, a first installation component, 4, a second installation component, 5, a third installation component, 6, a first measurement component, 7, a second measurement component, 8, a thread plate, 9, a threaded hole, 10, a bolt, 11, an L plate, 12, a thread groove, 13, a screw, 14, a rod piece, 15, a sucker, 16, an induction piece, 17, a telescopic rod, 18, a measuring head, 19, a limiting rod, 20, a chip controller and 21 and a wire.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Examples

Referring to fig. 1 to 4, a temperature sensor assembly includes a disk surface 1, the disk surface 1 being a base member to which a temperature sensor is mounted, further including:

The first mounting assembly 3, the first mounting assembly 3 includes a thread plate 8 arranged on the periphery of the disk surface 1 in an array, and the annular thread plate 8 realizes the butt-joint mounting of annular equipment through a threaded hole 9 and a bolt 10. The surface of the threaded plate 8 is provided with a threaded hole 9, and a bolt 10 is inserted and installed in the threaded hole 9;

The second installation component 4, the second installation component 4 is including installing the L board 11 in quotation 1 one side, and L board 11 has the effect of adaptation butt joint installation to support type overhanging equipment, and its connected mode is screw 13 threaded connection mode too, and the thread groove 12 has increased the scope of installation. The overhanging part of the L plate 11 is provided with a thread groove 12, and a screw 13 is arranged in the thread groove 12;

The third mounting assembly 5, the third mounting assembly 5 includes a rod 14 mounted on one side of the disk surface 1, and a suction cup 15 at the end of the rod 14 is used for being sucked on the surface of the suspension device. A suction cup 15 is mounted on one side of the rod 14.

A temperature sensor assembly, further comprising:

The first measuring assembly 6 comprises a chip controller 20 arranged on one side of the disk surface 1 and used for converting temperature data into measuring data, one side of the chip controller 20 is communicated with a measuring head 18 provided with a telescopic rod 17, and the measuring head 18 at the end part of the telescopic rod 17 is used for depth detection equipment. One end of the telescopic rod 17 is provided with a measuring head 18, and one side of the telescopic rod 17 is provided with a limiting rod 19.

A temperature sensor assembly, further comprising:

The second measuring assembly 7, the second measuring assembly 7 includes sensing pieces 16 arranged on two sides of the disk surface 1, and the sensing pieces 16 are used for temperature detection of the planar device.

In the temperature sensor assembly, the sensing piece 16 is in a semicircular patch structure, and the semicircular structure has a larger temperature sensing area.

A temperature sensor assembly is provided with a round corner 2 on one side of a disk surface 1 in order to avoid operator cuts.

A temperature sensor assembly, one side of the disk surface 1 is communicated with a chip controller 20, a wire 21 is connected, and the wire 21 is a component of an external power supply.

In the practical application process, the temperature sensor is required to be installed at different working positions, and the installation mode of the temperature sensor in the prior art is single, so that the temperature sensor in the prior art cannot be installed on the surface of equipment under different working conditions in an adaptive manner. The multifunctional installation component and detection component are specifically provided:

According to the annular first installation component 3 provided by the utility model, aiming at an annular installation unit, an annular installation effect is realized through a threaded hole 9 on the threaded plate 8 and a bolt 10 in a butt joint installation mode. For the bracket type equipment to be detected, the L plate 11 is hung on the side edge of the equipment and is connected and fixed in a mode that a screw 13 passes through a thread groove 12, and for the suspension type equipment to be detected, the fixed installation is realized in a mode that a sucker 15 arranged at the top of a rod piece 14 is used for sucking. The device realizes the effect of multifunctional adaptation installation, and solves the problems existing in the prior art in a targeted manner.

The novel semicircular induction piece 16 device realizes the effect of applying type induction measurement on the planar heat radiation equipment, and the measuring head 18 of the second measuring assembly 7 arranged at the end part of the telescopic rod 17 realizes the effect of depth detection, namely the device realizes the multifunctional detection effect and avoids the technical problem of inaccurate detection caused by single detection unit.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. A temperature sensor assembly comprising a disc surface (1), characterized in that it further comprises:

The first installation component (3), the first installation component (3) comprises a thread plate (8) which is arranged on the periphery of the disk surface (1) in an array manner, a threaded hole (9) is formed in the surface of the thread plate (8), and a bolt (10) is inserted and installed in the threaded hole (9);

The second installation component (4), the second installation component (4) comprises an L plate (11) installed on one side of the disk surface (1), a thread groove (12) is formed in the extending part of the L plate (11), and a screw (13) is installed in the thread groove (12);

The third installation component (5), the third installation component (5) is including installing member (14) in quotation (1) one side, sucking disc (15) are installed to one side of member (14).

2. A temperature sensor assembly according to claim 1, further comprising:

The measuring device comprises a first measuring component (6), wherein the first measuring component (6) comprises a chip controller (20) arranged on one side of a disc surface (1), a telescopic rod (17) is arranged on one side of the chip controller (20) in a communicating mode, a measuring head (18) is arranged at one end of the telescopic rod (17), and a limiting rod (19) is arranged on one side of the telescopic rod (17).

3. A temperature sensor assembly according to claim 2, further comprising:

The second measuring assembly (7), the second measuring assembly (7) includes the response piece (16) that set up in quotation (1) both sides.

4. A temperature sensor assembly according to claim 3, characterized in that the sensing tab (16) is configured as a semicircular patch.

5. A temperature sensor assembly according to claim 1, characterized in that one side of the disc surface (1) is provided with rounded corners (2).

6. A temperature sensor assembly according to claim 2, characterized in that one side of the disc surface (1) is in communication with a chip controller (20) with a wire (21).