CN114485956A - Real-time detection system of thermal imager for temperature measurement - Google Patents

Abstract

The invention provides a real-time detection system of a thermal imager for measuring temperature, which comprises: the bottom plate is used for integrally fixing; the detection unit is arranged on the bottom plate and is used for detecting the current environment temperature; the driving unit is arranged on the bottom plate and connected with the detection unit, the driving unit has lifting and rotating functions, the driving unit drives the detection unit to lift so that the detection unit detects environments with different heights, and the driving unit drives the detection unit to rotate so that the detection unit detects environments in different directions; the invention has the beneficial effects that: through the monitoring detection mode of lifting and rotating, the detection range of the detection unit can be effectively improved, the detection range of a plurality of groups of detection units can be completed through a single group of detection units in the detection process, and the cost is greatly reduced.

Description

Real-time detection system of thermal imaging system for temperature measurement

Technical Field

The invention relates to the technical field of thermal imagers, in particular to a real-time detection system of a temperature measurement thermal imager.

Background

Infrared thermography technology has applications in both military and civilian, originally originating from military, and gradually turning to civilian use. The thermal imager is generally called as a thermal imager in civil use, is mainly used for research and development or industrial detection and equipment maintenance, and also has wide application in fire prevention, night vision and security. Traditionally, thermal imagers have been used to convert the invisible infrared energy emitted by an object into a visible thermal image. The different colors on the top of the thermal image represent the different temperatures of the object being measured.

Current thermal imaging system is used in each field, in some great factory building environment, can use thermal imaging system to monitor current environment mostly, and is carrying out the in-process of monitoring, because the thermal imaging system is fixed on a certain position in the environment through the support mostly, the scope of control detection is comparatively narrow and narrow, and detection effect is unsatisfactory, still need cloth a large amount of thermal imaging systems of accuse, could monitor different positions in the environment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a real-time detection system of a thermal temperature measurement thermal imager.

The invention solves the technical problems through the following technical means:

temperature measurement thermal imaging system real-time detection system includes:

the bottom plate is used for integrally fixing;

the detection unit is arranged on the bottom plate and is used for detecting the current environment temperature;

and the driving unit is arranged on the bottom plate and is connected with the detection unit, the driving unit has lifting and rotating functions, the driving unit drives the detection unit to lift, so that the detection unit detects environments with different heights, and the driving unit drives the detection unit to rotate, so that the detection unit detects environments in different directions.

As an improvement of the above technical solution, the driving unit includes a support screw, a sleeve and a hydraulic telescopic rod, the support screw is fixedly arranged on the bottom plate, the sleeve is in threaded connection with the outer wall of the support screw, the detection unit is arranged on the sleeve, and the hydraulic telescopic rod is movably connected with the sleeve;

the hydraulic telescopic rod pushes the sleeve to move, so that the sleeve is lifted and rotated on the outer wall of the supporting screw rod.

As an improvement of the technical scheme, a movable ring in rotating connection is sleeved on the outer wall of the sleeve, a driving plate is fixedly arranged at the side end of the movable ring, and the hydraulic telescopic rod is connected between the driving plate and the bottom plate.

As an improvement of the technical scheme, a fixed plate is fixedly arranged on the sleeve, an adjusting unit is arranged on the fixed plate and comprises a hinged seat, a pipeline and an adjusting screw rod, the detecting unit is connected with the fixed plate through the hinged seat, the adjusting screw rod is hinged with the detecting unit, the pipeline is rotatably arranged on the fixed plate, and the adjusting screw rod is in threaded connection with the pipeline.

As an improvement of the technical scheme, an unmanned transport vehicle is arranged on the bottom end face of the bottom plate, and the unmanned transport vehicle is provided with a reciprocating motion track.

As an improvement of the technical proposal, the detection unit comprises a thermal imager for measuring temperature, an information transmission module, a voice alarm module and a timing switch module,

the thermal imager is used for detecting the ambient temperature;

the information transmission module is connected with the thermal imager for temperature measurement and is used for transmitting data of the thermal imager for temperature measurement;

the voice alarm module is connected with the thermal imager for temperature measurement and is used for alarming when high temperature occurs;

the timing switch module is connected with the thermal temperature measurement thermal imager and used for controlling the thermal temperature measurement thermal imager to work at a fixed point.

As an improvement of the above technical solution, the detection unit is further provided with a control unit, the control unit is arranged on an external control terminal, and the control unit comprises a remote visual detection module and a remote control module;

the remote visual detection module is connected with the information transmission module and is used for reflecting the current environment condition;

and the remote control module is connected with the thermal temperature measurement imager and is used for controlling the thermal temperature measurement imager to carry out acquisition work and conveying different instructions.

The invention has the beneficial effects that:

1. through the monitoring detection mode of lifting and rotating, the detection range of the detection unit can be effectively improved, the detection range of a plurality of groups of detection units can be completed through a single group of detection units in the detection process, and the cost is greatly reduced.

2. Through the cooperation between the drive unit that sets up, the detecting element, when examining, compare in traditional artifical measuring, can carry out the detection that lasts to the environment through the detecting element, prevent that the manual work from carrying out long-time measuring and appearing tired, influence the quality and the efficiency that detect, also can effectual reduction cost of labor's expenditure simultaneously.

3. Through the cooperation between the drive unit that sets up, the detecting element, when examining, can drive the detecting element and go up and down, rotate, at the in-process that detects, can effectually detect not co-altitude position and not equidirectional among the detection ring border, can prevent to have the foreign matter to shelter from, cause the hourglass to examine.

Drawings

Fig. 1 is a schematic structural diagram of a driving unit according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a front view of a drive unit according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of a portion B of FIG. 3 according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a module of the detection unit according to the embodiment of the present invention.

In the figure: 10. an unmanned transport vehicle; 20. a base plate; 30. a detection unit; 31. a thermal imager for measuring temperature; 32. an information transmission module; 33. a voice alarm module; 34. a timing switch module; 40. a drive unit; 41. a hydraulic telescopic rod; 42. a fixing plate; 43. a support screw; 44. a sleeve; 45. a drive plate; 46. a movable ring; 50. an adjustment unit; 51. adjusting the screw rod; 52. a pipeline; 53. a hinged seat; 60. a control unit; 61. a remote visual detection module; 62. and a remote control module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Examples

As shown in fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, the real-time detection system of a thermometric thermal imager in this embodiment includes:

a base plate 20, the base plate 20 being for integral fixation;

the detection unit 30 is arranged on the bottom plate 20, and the detection unit 30 is used for detecting the current environment temperature;

and the driving unit 40, the driving unit 40 is disposed on the bottom plate 20, the driving unit 40 is connected to the detecting unit 30, the driving unit 40 has lifting and rotating functions, the driving unit 40 drives the detecting unit 30 to lift, so that the detecting unit 30 detects environments with different heights, and the driving unit 40 drives the detecting unit 30 to rotate, so that the detecting unit 30 detects environments with different directions.

When detecting the current environment, the bottom plate 20 is placed in the environment to be detected, the driving unit 40 works, the driving unit 40 drives the detecting unit 30 to perform lifting and rotating actions simultaneously through the lifting and rotating functions of the driving unit 40, and the current environment is detected.

Through the monitoring detection mode of lifting and rotating, the detection range of the detection unit 30 can be effectively improved, in the detection process, the detection range of a plurality of groups of detection units 30 can be completed through a single group of detection units 30, and the cost is greatly reduced.

Through the cooperation between the drive unit 40 that sets up, detecting element 30, when examining, compare in traditional artifical measuring, can carry out the detection that lasts to the environment through detecting element 30, prevent that the manual work from carrying out long-time measuring and appearing tired, influence the quality and the efficiency that detect, also can effectual reduction cost of labor's expenditure simultaneously.

Through the cooperation between the drive unit 40 that sets up, the detecting element 30, when examining, can drive the detecting element 30 and go up and down, rotate, at the in-process that detects, can effectually detect not co-altitude position and different directions in to the measuring environment, can prevent that there is the foreign matter to shelter from, causes to miss to examine.

As shown in fig. 1 and 2, the driving unit 40 includes a supporting screw 43, a sleeve 44, and a hydraulic telescopic rod 41, the supporting screw 43 is fixedly disposed on the bottom plate 20, the sleeve 44 is threadedly connected to an outer wall of the supporting screw 43, the detecting unit 30 is disposed on the sleeve 44, and the hydraulic telescopic rod 41 is movably connected to the sleeve 44;

the hydraulic telescopic rod 41 pushes the sleeve 44 to move, so that the sleeve 44 is lifted and rotated on the outer wall of the supporting screw 43.

When drive detecting element 30 goes up and down, rotatory, hydraulic telescoping rod 41 work, and hydraulic telescoping rod 41 promotes sleeve pipe 44 and removes, through the screw-thread fit between sleeve pipe 44 and the supporting screw 43, can make sleeve pipe 44 rotate, goes up and down simultaneously, can effectually drive detecting element 30 go up and down, rotatory to in the convenience to the environment, different high point positions and different directions detect.

As shown in fig. 1 and fig. 2, a movable ring 46 rotatably connected with the outer wall of the sleeve 44 is sleeved on the outer wall of the sleeve, a driving plate 45 is fixedly arranged at a side end of the movable ring 46, and the hydraulic telescopic rod 41 is connected between the driving plate 45 and the bottom plate 20; in the process of driving the sleeve 44 to ascend and descend, the movable ring 46 is matched with the sleeve 44, so that the torsion generated by the rotation of the sleeve 44 can be prevented, and the connection stability of the hydraulic telescopic rod 41 can be prevented from being influenced.

As shown in fig. 1, 2, 3 and 4, a fixed plate 42 is fixedly disposed on the sleeve 44, an adjusting unit 50 is disposed on the fixed plate 42, the adjusting unit 50 includes a hinge seat 53, a pipe 52 and an adjusting screw 51, the detecting unit 30 is connected to the fixed plate 42 through the hinge seat 53, the adjusting screw 51 is hinged to the detecting unit 30, the pipe 52 is rotatably disposed on the fixed plate 42, and the adjusting screw 51 is screwed in the pipe 52.

When detecting the environment, rotate pipeline 52, through the screw-thread fit between pipeline 52 and adjusting screw 51, can jack-up detecting element 30 for detecting element 30 and fixed plate 42 between nonparallel, in the in-process of going on going up and down, rotatory detection, can improve the scope that detects, detect to the environment in order to make things convenient for better.

As shown in fig. 1, the bottom end surface of the bottom plate 20 is provided with an unmanned transport vehicle 10, and the unmanned transport vehicle 10 is provided with a reciprocating motion track. When monitoring is performed in an environment to be detected, the unmanned transport vehicle 10 can enable the detection unit 30 to perform reciprocating movement, and different positions in the environment can be monitored so as to prevent dead angles caused by foreign matters during monitoring.

As shown in fig. 1 and 5, the detection unit 30 includes a thermal temperature imager 31, an information transmission module 32, a voice alarm module 33 and a timing switch module 34,

the thermal imager 31 is used for detecting the ambient temperature;

the information transmission module 32 is connected with the thermal imager 31 and is used for transmitting data of the thermal imager 31;

the voice alarm module 33 is connected with the thermal imager 31 for alarming when high temperature occurs;

the timing switch module 34 is connected with the thermal temperature measurement imager 31 and is used for controlling the thermal temperature measurement imager 31 to work at a fixed point.

When detecting the environment, the thermal imager 31 detects the current environment, and when high temperature occurs, the thermal imager carries out alarm to the current environment through the voice alarm module 33, and simultaneously transmits the current environment condition to the outside through the information transmission module 32, so that the outside staff can know the specific condition in the current environment in time.

As shown in fig. 1 and 5, the detection unit 30 is further provided with a control unit 60, the control unit 60 is provided on an external control terminal, and the control unit 60 includes a remote visual detection module 61 and a remote control module 62;

the remote visual detection module 61 is connected with the information transmission module 32 and used for reflecting the current environment condition;

the remote control module 62 is connected to the thermal imager 31 for controlling the thermal imager 31 to perform the collection operation and transmit different commands.

The control unit 60 is provided to facilitate remote control of the detection unit 30.

It should be noted that, in this document, if there are first and second, etc., relational terms are only used for distinguishing one entity or operation from another entity or operation, and there is no necessarily any requirement or suggestion that any actual relation or order exists between the entities or operations. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. Temperature measurement thermal imaging system real-time detection system, its characterized in that: the method comprises the following steps:

a base plate (20), the base plate (20) being for integral fixation;

the detection unit (30) is arranged on the bottom plate (20), and the detection unit (30) is used for detecting the current environment temperature;

and the driving unit (40), the driving unit (40) is arranged on the bottom plate (20), the driving unit (40) is connected with the detection unit (30), the driving unit (40) has the functions of lifting and rotating, the driving unit (40) drives the detection unit (30) to lift, so that the detection unit (30) detects environments with different heights, and the driving unit (40) drives the detection unit (30) to rotate, so that the detection unit (30) detects environments in different directions.

2. The thermometric thermal imager real-time detection system of claim 1, characterized in that: the driving unit (40) comprises a supporting screw rod (43), a sleeve (44) and a hydraulic telescopic rod (41), the supporting screw rod (43) is fixedly arranged on the bottom plate (20), the sleeve (44) is in threaded connection with the outer wall of the supporting screw rod (43), the detecting unit (30) is arranged on the sleeve (44), and the hydraulic telescopic rod (41) is movably connected with the sleeve (44);

the hydraulic telescopic rod (41) pushes the sleeve (44) to move, so that the sleeve (44) is lifted and rotated on the outer wall of the supporting screw rod (43).

3. The thermometric thermal imager real-time detection system of claim 2, characterized in that: the outer wall cover of sleeve pipe (44) is equipped with movable ring (46) of rotating the connection, the side of movable ring (46) is fixed and is provided with drive plate (45), hydraulic telescoping rod (41) are connected between drive plate (45), bottom plate (20).

4. The thermometric thermal imager real-time detection system of claim 2, characterized in that: the fixed plate (42) that is provided with on sleeve pipe (44), be provided with adjusting unit (50) on fixed plate (42), adjusting unit (50) are including articulated seat (53), pipeline (52) and adjusting screw (51), detecting element (30) are connected with fixed plate (42) through articulated seat (53), adjusting screw (51) are articulated with detecting element (30), pipeline (52) rotate the setting on fixed plate (42), adjusting screw (51) threaded connection is in pipeline (52). .

5. The thermometric thermal imager real-time detection system of claim 1, characterized in that: the bottom end face of the bottom plate (20) is provided with an unmanned transport vehicle (10), and the unmanned transport vehicle (10) is provided with a reciprocating motion track.

6. The thermometric thermal imager real-time detection system of claim 1, characterized in that: the detection unit (30) comprises a temperature measurement thermal imager (31), an information transmission module (32), a voice alarm module (33) and a timing switch module (34),

the temperature measurement thermal imager (31) is used for detecting the ambient temperature;

the information transmission module (32) is connected with the thermal temperature measurement imager (31) and is used for transmitting data of the thermal temperature measurement imager (31);

the voice alarm module (33) is connected with the thermal imager (31) for temperature measurement and is used for alarming when high temperature occurs;

the timing switch module (34) is connected with the thermal temperature measurement imager (31) and used for controlling the thermal temperature measurement imager (31) to work at a fixed point.

7. The thermometric thermal imager real-time detection system of claim 6, characterized in that: the detection unit (30) is also provided with a control unit (60), the control unit (60) is arranged on an external control terminal, and the control unit (60) comprises a remote visual detection module (61) and a remote control module (62);

the remote visual detection module (61) is connected with the information transmission module (32) and is used for reflecting the current environment condition;

the remote control module (62) is connected with the thermal temperature measurement imager (31) and is used for controlling the thermal temperature measurement imager (31) to carry out acquisition work and transmit different instructions.

Images