CN210953111U - Non-contact temperature measuring equipment - Google Patents

Abstract

The utility model belongs to the technical field of temperature detection equipment, in particular to non-contact temperature measurement equipment, which comprises a support for supporting and a balance structure arranged at the top end of the support, wherein a temperature measurement device comprises an installation shell and a temperature measurement head arranged inside the installation shell; a temperature measuring component is arranged in the temperature measuring head, and comprises a lens cover, a mounting box, a mounting seat, a servo motor arranged on the mounting seat and a temperature measuring module connected to a motor shaft of the servo motor; the lens cover is provided with a plurality of observation windows which are distributed in an array manner, and each observation window is embedded with an infrared lens; a through hole is formed in the upper end of the mounting box, and a motor shaft of the servo motor penetrates through the through hole and extends into the mounting cavity; the temperature measuring module comprises a rotating seat fixedly arranged on a motor shaft of the servo motor, and at least two infrared sensors which are opposite to the observation window in position are fixedly arranged on the rotating seat; the power supply module is arranged on the rotating seat or in the shell.

Description

Non-contact temperature measuring equipment

Technical Field

The utility model belongs to the technical field of the temperature-detecting equipment, especially, relate to a non-contact temperature measuring equipment.

Background

In the process of various online or offline detection activities such as detection and maintenance of a power distribution station, temperature detection is an important data acquisition content, particularly for substation equipment, the temperature change of various key power distribution equipment can effectively reflect the running state of each equipment, and meanwhile, abnormal phenomena caused by various factors such as faults are fed back, and for various areas which are located at high altitude or high voltage and are difficult or inconvenient to contact, non-contact temperature acquisition equipment is generally adopted. On the one hand, the non-contact temperature acquisition equipment does not need to be in direct contact with equipment to be detected, so that the equipment to be detected is not affected, and the external interference factors received by the non-contact temperature acquisition equipment are small.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can improve wireless temperature measurement efficiency and temperature detection precision's non-contact temperature measurement equipment. In order to achieve the above purpose, the utility model adopts the following technical scheme.

A non-contact temperature measuring device comprises a support for supporting, a balance structure arranged at the top end of the support and a temperature measuring device arranged on the balance structure, wherein the temperature measuring device comprises an installation shell and a temperature measuring head arranged in the installation shell; an observation port is arranged on the mounting shell, a lens is embedded in the observation port, and the temperature measuring head is arranged behind the lens; a temperature measuring component is arranged in the temperature measuring head, and comprises a lens cover, a mounting box, a mounting seat, a servo motor arranged on the mounting seat and a temperature measuring module connected to a motor shaft of the servo motor;

the mounting seat is fixed on the mounting shell, the lower end of the servo motor is fixedly mounted on the mounting seat, the mounting box is buckled on the mounting seat in a bottle cap shape and abuts against the upper end of the servo motor, and the upper end and the lower end of the servo motor are fixed through the mounting seat and the mounting box respectively; the lens cover is buckled at the upper end of the mounting box, and the upper end surface of the mounting box and the inner wall of the lens cover enclose a mounting cavity; the lens cover is provided with a plurality of observation windows which are distributed in an array manner, and each observation window is embedded with an infrared lens; a through hole is formed in the upper end of the mounting box, and a motor shaft of the servo motor penetrates through the through hole and extends into the mounting cavity; the temperature measuring module comprises a rotating seat fixedly arranged on a motor shaft of the servo motor, and at least two infrared sensors which are opposite to the observation window in position are fixedly arranged on the rotating seat; the power supply module is arranged on the rotating seat or in the shell.

To the further improvement of above-mentioned non-contact temperature measurement equipment, the roating seat lower extreme is equipped with shaft hole and axle hole cover and establishes on the servo motor shaft, and the upper end of roating seat is equipped with cylindrical mount table, and the axis and the coincidence of servo motor shaft of mount table, mount table edge are equipped with a plurality of mounting grooves, and infrared sensor detachable installs in the mounting groove. Through the symmetry setting, can make a plurality of temperature measurement modules can be regular bypass behind the observation window to the periodicity detects the temperature, improves the unity of data, and the data processing of being convenient for makes the focus of whole structure distribute more evenly simultaneously, improves the stability and the validity of structure.

The further improvement to above-mentioned non-contact temperature measurement equipment, the lower extreme diameter increase of mount table forms the installation department, be equipped with spacing portion or spacing hole on the installation department, infrared sensor includes the installation section of thick bamboo of cylindricality, installation section of thick bamboo lower extreme card is in spacing portion or insert spacing hole, the upper end of installation section of thick bamboo is equipped with the connecting portion that stretches out to the side, be equipped with the outer connecting hole on the connecting portion, the corresponding inner connecting hole that is equipped with on the mount table, the installation section of thick bamboo is fixed through screw or round pin or double-screw bolt on locating inner connecting hole. The screw or the pin is used for detachable fixation, so that the structural design and assembly are facilitated, and the adaptability of the equipment is improved.

The non-contact temperature measuring equipment is further improved, the power supply module is a wireless electricity taking assembly, and the wireless electricity taking assembly comprises an electricity taking coil which is fixed on the rotating seat and rotates along with the rotating seat and a power supply coil which is fixed on the mounting box or the mounting seat; the power supply coil is electrically connected with an external power supply, and the power taking coil is electrically connected with a power supply structure in the infrared sensor. In order to improve the smoothness of the mechanism action and reduce unnecessary mechanical contact, a wireless power transmission structure is adopted, and meanwhile, the internal servo motor and other structures can be fully utilized, so that simpler and more compact structural connection is realized, and the economical efficiency of equipment is improved

The power module further comprises an energy storage power supply which is electrically connected with the power supply coil. The energy storage power supply improves the endurance performance of the equipment, and meanwhile, the sensor can be provided with an independent power supply to be isolated from an external power supply, so that the noise interference of the power supply is reduced, and the accuracy of data is improved.

The non-contact temperature measuring equipment is further improved and further comprises an infrared transmitter and a wireless transmitter which are arranged on the rotating seat.

The non-contact temperature measuring equipment is further improved and further comprises a data processing terminal, a display terminal and a wireless receiver, wherein the wireless receiver is arranged near the wireless transmitter, and is connected with the data processing terminal.

Because the restriction of wireless temperature measurement, the data precision of temperature measurement is lower, for this the utility model discloses a non-contact temperature measurement equipment has provided a multichannel data acquisition structure, drive through built-in servo motor, make a plurality of temperature measurement modules can gather the infrared ray through the observation window and carry out temperature measurement, and through the repeated collection of different temperature measurement modules at same observation window, and the collection in turn of same temperature measurement module between different observation windows, carry out synchronous or asynchronous comparison to the data of temperature measurement, revise the data error of single temperature measurement module, improve data acquisition's precision.

Drawings

FIG. 1 is a schematic structural view of the non-contact temperature measuring device of the present invention;

FIG. 2 is a schematic structural diagram of a temperature measuring head in the non-contact temperature measuring device;

FIG. 3 is an assembly view of a temperature probe in a non-contact temperature measuring device.

Detailed Description

The present invention will be described in detail with reference to the following specific examples.

As shown in fig. 1-3, the utility model relates to a non-contact temperature measuring equipment for outdoor exploration, which comprises a support 1 for supporting, a balance structure 2 arranged on the top of the support 1, and a temperature measuring device arranged on the balance structure 2. Support 1 mainly used supports and fixes in the open air, and is the same with traditional stable support, is triangle formula supporting structure generally, for carrying, support 1 is formed by the light material preparation in this embodiment, and the support design is scalable or folding structure so that pack up back compression volume as far as, be convenient for transport and storage.

As shown in fig. 1 and 2, the temperature measuring device in this embodiment includes a mounting housing 3 and a temperature measuring head disposed inside the mounting housing 3; an observation port 3a is arranged on the mounting shell 3, a lens 4 is embedded in the observation port 3a, and the temperature measuring head is arranged behind the lens; installation casing 3 is used for protecting and keeping apart, and generally be removable abluent fixed connection on support 3, for being convenient for adjust the temperature measurement direction, reduces support 3's the number of times of moving, still generally can set up angle adjustment mechanism between support 3 and casing, and this type of structure belongs to comparatively ripe technique.

As shown in fig. 3, which is an assembly diagram of the temperature measuring head in this embodiment, a temperature measuring assembly is disposed in the temperature measuring head, and the temperature measuring assembly includes a lens cover 5, a mounting box 6, a mounting base 7, a servo motor 8 mounted on the mounting base 7, and a temperature measuring module connected to a motor shaft of the servo motor;

the mounting seat 7 is fixed on the mounting shell 3, the lower end of the servo motor 8 is fixedly mounted on the mounting seat 7, the mounting box 6 is buckled on the mounting seat 7 in a bottle cap shape and abuts against the upper end of the servo motor 8, and the upper end and the lower end of the servo motor 8 are fixed through the mounting seat 7 and the mounting box 6 respectively; the lens cover 5 is buckled at the upper end of the mounting box 6, and the upper end surface of the mounting box 6 and the inner wall of the lens cover 5 form a mounting cavity; a plurality of observation windows 5a distributed in an array are arranged on the lens cover 5, and an infrared light lens 5b is embedded in each observation window 5 a; a through hole 6a is formed in the upper end of the mounting box 6, and a motor shaft 8a of the servo motor penetrates through the through hole 6a and extends into the mounting cavity;

the temperature measuring module comprises a rotating seat 9a fixedly arranged on a motor shaft 8a of the servo motor, and at least two infrared sensors 9b which are opposite to the observation window 5a in position are fixedly arranged on the rotating seat 9 a;

and the power supply module is arranged on the rotating seat 9a or in the shell 3. The lower extreme of roating seat 9a is equipped with the shaft hole and the axle hole cover is established on servo motor shaft 8a, and the upper end of roating seat 9a is equipped with cylindrical mount table 9c, and mount table 9 c's axis and the coincidence of servo motor shaft 8a, the mount table edge is equipped with a plurality of mounting grooves 9d, and infrared sensor 9b detachable installs in mounting groove 9 d.

The lower extreme diameter increase of mount table 9c forms installation department 9e, be equipped with spacing portion or spacing hole 9f on the installation department 9e, infrared sensor 9b includes the installation section of thick bamboo of cylindricality, installation section of thick bamboo lower extreme card is in spacing portion or insert spacing hole 9f, the upper end of installation section of thick bamboo is equipped with the connecting portion 9g that stretches out to the side, be equipped with the external connection hole on the connecting portion 9g, the corresponding internal connection hole that is equipped with on the mount table 9c, the installation section of thick bamboo is fixed through screw or round pin or double-screw bolt 10 on locating internal connection hole and the external connection.

The power module is a wireless electricity taking assembly which comprises an electricity taking coil fixed on the rotary seat 9a and rotating along with the rotary seat 9a, and a power supply coil fixed on the mounting box 6 or the mounting seat 7; the power supply coil is electrically connected with an external power supply, and the power taking coil is electrically connected with a power supply structure in the infrared sensor.

The power supply module further comprises an energy storage power supply, and the energy storage power supply is electrically connected with the power supply coil. And the device also comprises an infrared transmitter and a wireless transmitter which are arranged on the rotating base 9 a. The wireless display device comprises a data processing terminal, a display terminal and a wireless receiver, wherein the wireless receiver is arranged near a wireless transmitter, and the wireless receiver is connected with the data processing terminal.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. A non-contact temperature measuring device comprises a support (1) for supporting, a balance structure (2) arranged at the top end of the support (1), and a temperature measuring device arranged on the balance structure (2), and is characterized in that the temperature measuring device comprises an installation shell (3) and a temperature measuring head arranged inside the installation shell (3); an observation port (3a) is arranged on the mounting shell (3), a lens (4) is embedded in the observation port (3a), and the temperature measuring head is arranged behind the lens; a temperature measuring component is arranged in the temperature measuring head, and comprises a lens cover (5), a mounting box (6), a mounting seat (7), a servo motor (8) arranged on the mounting seat (7) and a temperature measuring module connected to a motor shaft of the servo motor;

the mounting seat (7) is fixed on the mounting shell (3), the lower end of the servo motor (8) is fixedly mounted on the mounting seat (7), the mounting box (6) is buckled on the mounting seat (7) in a bottle cap shape and abuts against the upper end of the servo motor (8), and the upper end and the lower end of the servo motor (8) are fixed through the mounting seat (7) and the mounting box (6) respectively; the lens cover (5) is buckled at the upper end of the mounting box (6), and the upper end surface of the mounting box (6) and the inner wall of the lens cover (5) enclose a mounting cavity; a plurality of observation windows (5a) distributed in an array are arranged on the lens cover (5), and infrared lenses (5b) are embedded in each observation window (5 a); a through hole (6a) is formed in the upper end of the mounting box (6), and a motor shaft (8a) of the servo motor penetrates through the through hole (6a) and extends into the mounting cavity;

the temperature measuring module comprises a rotating seat (9a) fixedly arranged on a motor shaft (8a) of the servo motor, and at least two infrared sensors (9b) opposite to the observation window (5a) in position are fixedly arranged on the rotating seat (9 a);

the power supply module is arranged on the rotating seat (9a) or in the shell (3).

2. The non-contact temperature measuring device according to claim 1, wherein the lower end of the rotating base (9a) is provided with a shaft hole and the shaft hole is sleeved on the motor shaft (8a) of the servo motor, the upper end of the rotating base (9a) is provided with a cylindrical mounting table (9c), the axis of the mounting table (9c) is coincident with the motor shaft (8a) of the servo motor, the edge of the mounting table is provided with a plurality of mounting grooves (9d), and the infrared sensor (9b) is detachably mounted in the mounting groove (9 d).

3. The non-contact temperature measuring device according to claim 2, wherein the diameter of the lower end of the mounting platform (9c) is increased to form a mounting portion (9e), a limiting portion or a limiting hole (9f) is formed in the mounting portion (9e), the infrared sensor (9b) comprises a cylindrical mounting cylinder, the lower end of the mounting cylinder is clamped in the limiting portion or inserted into the limiting hole (9f), a connecting portion (9g) extending towards the side face is arranged at the upper end of the mounting cylinder, an outer connecting hole is formed in the connecting portion (9g), an inner connecting hole is correspondingly formed in the mounting platform (9c), and the mounting cylinder is fixed through a screw or a pin or a stud (10) arranged on the inner connecting hole and the outer connecting hole.

4. The non-contact temperature measuring device according to claim 1, wherein the power module is a wireless power-taking assembly, and the wireless power-taking assembly comprises a power-taking coil fixed on the rotating base (9a) and rotating along with the rotating base (9a), and a power supply coil fixed on the mounting box (6) or the mounting base (7); the power supply coil is electrically connected with an external power supply, and the power taking coil is electrically connected with a power supply structure in the infrared sensor.

5. The non-contact thermometric apparatus of claim 4, further comprising the power module further comprising an energy storage power source, the energy storage power source being electrically connected to the power coil.

6. The non-contact thermometric apparatus according to claim 1, further comprising an infrared transmitter and a wireless transmitter provided on the rotating base (9 a).

7. The non-contact temperature measuring device according to claim 6, comprising a data processing terminal and a display terminal, and further comprising a wireless receiver, wherein the wireless receiver is arranged near the wireless transmitter, and the wireless receiver is connected with the data processing terminal.

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