CN218208753U - Thermal infrared imager with locating component - Google Patents

Abstract

The utility model provides a thermal infrared imager with locating component, includes thermal infrared imager main part and base, the bottom of thermal infrared imager main part links to each other with the footstock is fixed, the bottom of footstock links to each other with the diaphragm is fixed, the top of base links to each other with the bracing piece is fixed, the both sides of bracing piece slide with the stopper and link to each other, the top of stopper links to each other with the supporting screw is fixed, the top and the screw thread section of thick bamboo rotation of bracing piece link to each other. The user rotates the adjusting screw rod on the inclined side of the thermal infrared imager main body, so that the adjusting screw rod moves upwards along the threaded groove of the circular plate, and simultaneously rotates the adjusting screw rods on the other two sides to move downwards along the circular plate, so that the adjusting screw rod drives the groove plate to rotate, the situation that the lens of the thermal infrared imager is inclined due to the fact that the ground of a measurement site is uneven and the lens is prone to being inclined is prevented, and the situation that the lens of the thermal infrared imager is prone to being incompletely irradiated is avoided, and therefore the working efficiency of the thermal infrared imager is guaranteed.

Description

Thermal infrared imager with locating component

Technical Field

The utility model relates to a thermal infrared imager technical field especially relates to a thermal infrared imager with locating component.

Background

Infrared thermography technology has been applied to both military and civilian industries, and originally originated from military use and gradually turned into civilian use.

However, the thermal infrared imager is generally operated by a worker in a handheld manner, and meanwhile, the thermal infrared imager is matched with a special positioning assembly to be installed at a specified place for long-time stable measurement, however, when the existing positioning assembly is erected at a measurement site, due to the fact that construction of the measurement site is rough, the situation that the ground of the measurement site is uneven is easily caused, the existing positioning assembly supports the thermal infrared imager, so that the lens is easily inclined, the situation that the lens of the thermal infrared imager is incompletely irradiated is easily caused, and the working efficiency of the thermal infrared imager is influenced.

Disclosure of Invention

The utility model discloses solve the problem that above-mentioned prior art exists, provide a thermal infrared imager with locating component, solved prior art because the survey scene ground unevenness leads to outer thermal image appearance to lead to the camera lens to appear crooked messenger thermal infrared imager's camera lens easily appearing shining incomplete problem easily because shining.

The utility model provides a technical scheme that its technical problem adopted:

in order to further perfect, an infrared thermal imager with locating component, including infrared thermal imager main part and base, the bottom and the footstock of infrared thermal imager main part are fixed to be continuous, the bottom and the diaphragm of footstock are fixed to be continuous, the top and the bracing piece of base are fixed to be continuous, the both sides and the stopper of bracing piece slide and link to each other, the top and the supporting screw rod of stopper are fixed to be continuous, the top and the screw thread section of thick bamboo of bracing piece rotate to link to each other, the inner wall and the supporting screw thread of screw thread section of thick bamboo link to each other, the top of supporting screw rod is equipped with locating component.

Further perfect, locating component includes the supporting seat, the bottom and the supporting screw of supporting seat are fixed continuous, the outer wall and the plectane of supporting seat are fixed continuous, the outside and a plurality of adjusting screw threads of plectane link to each other, adjusting screw's top and frid are laminated mutually, the bottom and the ball of frid are fixed continuous, a plurality of balls of outer wall bottom of ball are laminated mutually, the bottom and the supporting seat of ball are laminated mutually.

Further perfection, the top end of the groove plate is fixedly connected with the transverse plate.

Further perfection, the bottom end of the adjusting screw rod is provided with a handle.

Further perfection, the groove plates are processed with grooves at equal intervals.

Further perfection, the inside processing of bracing piece is fluted, and the stopper slides along the recess of bracing piece.

The utility model discloses profitable effect is: the utility model discloses, the user rotates the adjusting screw of thermal infrared imager main part slope one side, make its thread groove rebound along the plectane, the adjusting screw who rotates other both sides simultaneously moves down along the plectane, adjusting screw drives the frid and rotates, the frid drives the ball and rotates, the ball rotates along the ball, sliding friction between ball and the ball, make the ball rotate, thereby make ball pivoted with the smooth and easy best angle that has guaranteed the camera lens of thermal infrared imager main part and shone, prevent because the survey scene ground unevenness leads to outer thermal image appearance to lead to the camera lens skew to appear making thermal infrared imager's camera lens skew easily appearing shining the incomplete condition of shining, thereby guarantee thermal infrared imager work efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic view of the structure B in FIG. 1;

fig. 4 is a schematic top view of the structure of fig. 1.

Description of reference numerals: 1. thermal infrared imager main part, 2, base, 3, bracing piece, 4, locating component, 4a1, plectane, 4a2, ball, 4a3, frid, 4a4, adjusting screw, 4a5, supporting seat, 4a6, ball, 4b1, gyro wheel, 4b2, roller bearing, 5, supporting screw, 6, stopper, 7, supporting seat, 8, diaphragm, 9, screw thread section of thick bamboo.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

example 1:

referring to figures 1-4: in the embodiment, an infrared thermal imager with a positioning assembly, including an infrared thermal imager main body 1 and a base 2, the bottom end of the infrared thermal imager main body 1 is fixedly connected with a top seat 7, the bottom end of the top seat 7 is fixedly connected with a transverse plate 8, the top end of the base 2 is fixedly connected with a support rod 3, two sides of the support rod 3 are slidably connected with a limit block 6, the top end of the limit block 6 is fixedly connected with a support screw 5, the top end of the support rod 3 is rotatably connected with a threaded cylinder 9, the inner wall of the rough threaded cylinder 9 processed on the outer wall of the threaded cylinder 9 is in threaded connection with the support screw 5, the top end of the support screw 5 is provided with the positioning assembly 4, the infrared thermal imager is generally held by a worker, and meanwhile, the positioning assembly specially matched is installed in a specified place for long-time stable measurement, however, the existing positioning assembly is erected in a measurement site, the existing positioning assembly is rough in the measurement site, the condition of uneven ground easily occurs on the measurement site, the existing positioning assembly easily causes the lens to be inclined when the lens of the infrared thermal imager is supported, the lens of the infrared thermal imager easily appears under the condition of incomplete irradiation, and the working efficiency of the infrared thermal imager is affected.

The positioning component 4 comprises a supporting seat 4a5, the bottom end of the supporting seat 4a5 is fixedly connected with a supporting screw rod 5, the outer wall of the supporting seat 4a5 is fixedly connected with a circular plate 4a1, the outer side of the circular plate 4a1 is in threaded connection with a plurality of adjusting screw rods 4a4, the adjusting screw rods 4a4 are rotated randomly, thread grooves of the screw rods 4a4 move along thread grooves of the circular plate 4a1, the adjusting screw rods 4a4 move upwards, the adjusting screw rods 4a4 drive the groove plate 4a3 to rotate, the groove plate 4a3 drives the round balls 4a2 to rotate, the round balls 4a2 rotate along the ball balls 4a6, and sliding friction is generated between the ball balls 4a6 and the round balls 4a2, the ball 4a6 is rotated, the ball 4a2 is rotated smoothly, the top end of the adjusting screw rod 4a4 is attached to the groove plate 4a3, the bottom end of the groove plate 4a3 is fixedly connected with the ball 4a2, a plurality of balls 4a6 are attached to the bottom of the outer wall of the ball 4a2, the bottom end of the ball 4a6 is attached to the supporting seat 4a5, the top end of the groove plate 4a3 is fixedly connected with the transverse plate 8, the bottom end of the adjusting screw rod 4a4 is provided with a handle, grooves are equidistantly formed in the groove plate 4a3, grooves are formed in the supporting rod 3, and the limiting block 6 slides along the grooves of the supporting rod 3;

the user rotates the adjusting screw rod 4a4 on the inclined side of the thermal infrared imager main body 1 to enable the adjusting screw rod to move upwards along the threaded groove of the circular plate 4a1, and simultaneously rotates the adjusting screw rods 4a4 on the other two sides to move downwards along the circular plate 4a1, the adjusting screw rods 4a4 drive the groove plate 4a3 to rotate, the groove plate 4a3 drives the round ball 4a2 to rotate, the round ball 4a2 rotates along the ball 4a6, sliding friction between the ball 4a6 and the round ball 4a2 enables the ball 4a6 to rotate, the round ball 4a2 rotates smoothly, so that the optimal angle of lens irradiation of the thermal infrared imager main body 1 is ensured, the situation that the lens of the thermal infrared imager is prone to be subjected to incomplete irradiation due to the fact that the lens is prone to deflection caused by the fact that the external thermal imager is uneven on the ground of a measurement site is prevented, and the working efficiency of the thermal infrared imager is ensured.

The working principle is as follows:

in the use process of the thermal infrared imager with the positioning assembly, the thermal infrared imager main body 1 is placed on a side measuring site through a base, then the threaded barrel 9 is rotated, the threaded barrel 9 drives the supporting screw 5 to move upwards, the supporting screw 5 drives the limiting block 6 to move, meanwhile, the supporting screw 5 drives the thermal infrared imager main body to move upwards, the height of the thermal infrared imager main body is adjusted, then when a lens of the thermal infrared imager main body 1 is inclined, a user rotates the adjusting screw 4a4 on the inclined side of the thermal infrared imager main body 1 to enable the adjusting screw to move upwards along the threaded groove of the circular plate 4a1, meanwhile, the adjusting screws 4a4 on the other two sides are rotated to enable the adjusting screw 4a1 to move downwards along the circular plate 4a1, the adjusting screw 4a4 drives the groove plate 4a3 to rotate, the groove plate 4a3 drives the round ball 4a2 to rotate, the round ball 4a2 rotates along the ball 4a6, sliding friction between the ball 4a6 and the round ball 4a2 is rotated, the fact that the round ball 4a2 rotates smoothly with the thermal infrared imager main body 1, the optimal irradiation angle of the ground is ensured, and the fact that the thermal infrared imager is prone to cause the uneven ground surface irradiation, and the occurrence of the thermal imager is easy occurrence of the situation that the measurement is prone to cause the occurrence of the uneven ground surface.

Example 2:

referring to fig. 3: in this embodiment, an infrared thermal imager with locating component, wherein locating component 4 may also include gyro wheel 4b1 and roller bearing 4b2, and the both sides of roller bearing 4b2 rotate with adjusting screw 4a4 and link to each other, and the outer wall of roller bearing 4b2 links to each other with gyro wheel 4b1 is fixed, and the top of gyro wheel 4b1 slides with the recess of frid 4a3 and links to each other.

The working principle is as follows:

when the adjusting screw 4a4 is rotated, the grooved plate 4a3 inclines, and the adjusting screw 4a4 moves upwards to drive the roller 4b1 to slide along the groove of the grooved plate 4a2, so that the roller 4b1 is supported on the grooved plate 4a3 when the grooved plate 4a2 inclines, and the stability of the positioning assembly is improved.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (6)

1. The utility model provides a thermal infrared imager with locating component, includes thermal infrared imager main part (1) and base (2), characterized by: the bottom of thermal infrared imager main part (1) is fixed continuous with footstock (7), the bottom of footstock (7) is fixed continuous with diaphragm (8), the top of base (2) is fixed continuous with bracing piece (3), the both sides of bracing piece (3) slide continuous with stopper (6), the top of stopper (6) is fixed continuous with supporting screw (5), the top of bracing piece (3) rotates with a screw thread section of thick bamboo (9) and links to each other, the inner wall of a screw thread section of thick bamboo (9) links to each other with supporting screw (5) screw thread, the top of supporting screw (5) is equipped with locating component (4).

2. The thermal infrared imager with positioning assembly of claim 1, wherein: locating component (4) are including supporting seat (4 a 5), the bottom and the supporting screw (5) of supporting seat (4 a 5) are fixed continuous, the outer wall and the plectane (4 a 1) of supporting seat (4 a 5) are fixed continuous, the outside and a plurality of adjusting screw (4 a 4) screw thread of plectane (4 a 1) link to each other, the top and frid (4 a 3) of adjusting screw (4 a 4) laminate mutually, the bottom and the ball (4 a 2) of frid (4 a 3) are fixed continuous, a plurality of balls (4 a 6) laminate mutually in the outer wall bottom of ball (4 a 2), the bottom and the supporting seat (4 a 5) of ball (4 a 6) laminate mutually.

3. The thermal infrared imager with positioning assembly of claim 2, wherein: the top end of the groove plate (4 a 3) is fixedly connected with the transverse plate (8).

4. The thermal infrared imager with positioning assembly of claim 2, wherein: the bottom end of the adjusting screw rod (4 a 4) is provided with a handle.

5. The thermal infrared imager with positioning assembly of claim 2, wherein: the groove plates (4 a 3) are provided with grooves at equal intervals.

6. The thermal infrared imager with positioning assembly of claim 1, wherein: the inside processing of bracing piece (3) is fluted, and stopper (6) slide along the recess of bracing piece (3).

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