CN206593762U - A kind of infrared thermal imagery instrument bracket - Google Patents

Abstract

The utility model discloses a kind of infrared thermal imagery instrument bracket, grip slipper including telescopic expansion link, for clamping thermal infrared imager and the fixed seat for being fixed on metope, the first end of the expansion link is hinged with the fixed seat, second end is fixed with the grip slipper, when the grip slipper is in releasing orientation, the thermal infrared imager can be moved relative to the grip slipper, and moving direction is vertical with the telescopic direction of the expansion link.After fixed seat is fixed on the wall, the position of grip slipper can be adjusted by the rotation between expansion link and fixed seat and the flexible of expansion link, thermal infrared imager movement on grip slipper can adjust the position of thermal infrared imager, improve the accuracy and testing efficiency of infrared heat image instrument measuring.Due to need not be hand-held, it is only necessary to the position of thermal infrared imager is adjusted, can be used always after the completion of adjustment, test job intensity is reduced, and the distance measured every time be consistent, is easy to the contrast of measurement result.

Description

A kind of infrared thermal imagery instrument bracket

Technical field

The utility model is related to thermal infrared imager corollary apparatus technical field, more particularly to a kind of infrared thermal imagery instrument bracket.

Background technology

Conventional fossil fuel is increasingly depleted, in all sustainable energies, and solar energy is a kind of cleaning and non- Often has potential alternative energy source.With flourishing for photovoltaic power generation technology, silicon solar cell is also able to extensive use.Light Photoelectric transformation efficiency is the most important performance indications of silicon solar cell, and reverse leakage is to the conversion efficiency of silicon solar cell Influence is very big, wants to obtain higher photoelectric transformation efficiency, it is necessary to farthest reduction or even elimination reverse leakage.Existing skill , can be by hand-held infrared heat image instrument measuring silicon solar cell reverse leakage, then the reason for analyze reverse leakage, still in art Hand-held thermal infrared imager has the disadvantages that：

1. the definition of measurement is relevant with the proficiency of operating personnel, and with the increase of test job amount, after personnel are tired, The slight jitter of hand can further influence definition and measurement efficiency, easily cause misjudgement, erroneous judgement.

2. the focal length of operating personnel's selection is different, the picture size shot can be caused different, it has not been convenient to which result is compared.

Utility model content

The purpose of this utility model is to propose a kind of infrared thermal imagery instrument bracket, it is possible to increase the standard of infrared heat image instrument measuring True property and testing efficiency, reduce test job intensity, are easy to the contrast of measurement result, and it is few to take up an area region.

For up to this purpose, the utility model uses following technical scheme：

A kind of infrared thermal imagery instrument bracket, including telescopic expansion link, the grip slipper for clamping thermal infrared imager and solid Due to the fixed seat of metope, the first end of the expansion link is hinged with the fixed seat, and the second end is fixed with the grip slipper, when When the grip slipper is in releasing orientation, the thermal infrared imager can be moved relative to the grip slipper, and moving direction and institute The telescopic direction for stating expansion link is vertical.

Wherein, the grip slipper can hold the clamping base of the thermal infrared imager tightly after including two pieces of mutual fastenings from outside Seat, one end of two pieces of gripping bases is hinged, and the other end is fixed by fixture.

Wherein, one end of moving direction of the gripping base along the thermal infrared imager is provided with governor motion, described Governor motion is that the adjustment bolt or adjusting screw of different length can be stretched into along the moving direction.

Wherein, the fixture is hasp.

Wherein, it is vertically installed between two pieces of relative support arms, two pieces of support arms and is provided with the fixed seat Rotary shaft, the first end of the expansion link is connected with the rotary shaft.

Wherein, the first end of the expansion link is connected with articulated elements, and the expansion link can be on the articulated elements around institute State and be provided with the axis rotation of expansion link, the articulated elements by the locking piece of the flexible rod lock, the articulated elements and institute State rotary shaft connection.

Wherein, the support arm and the articulated elements close-fitting, to cause two pieces of support arms to be hinged from both sides by described Part is clamped.

Wherein, the end of the rotary shaft is provided with screw thread, and the end of the rotary shaft is passed through after the support arm with outside The locking nut connection of side.

Wherein, the expansion link includes at least two telescoping tubes being socketed successively, and two telescoping tubes socket-connected lead to Cross clamping element clamping.

Wherein, two telescoping tubes socket-connected are respectively outer tube and inner tube, and the end of the outer tube offers outer spiral shell Line, and the outer tube offers expansion slot vertically from end, the internal diameter of the end of the outer tube is slightly less than the external diameter of inner tube, institute Stating clamping element includes gripping sleeve, and the gripping sleeve is sheathed on outside the external screw thread and coordinated with the external screw thread.

Beneficial effect：The utility model provide a kind of infrared thermal imagery instrument bracket, including telescopic expansion link, for pressing from both sides Hold the grip slipper of thermal infrared imager and be fixed on the fixed seat of metope, the first end of the expansion link is hinged with the fixed seat, Second end is fixed with the grip slipper, and when the grip slipper is in releasing orientation, the thermal infrared imager can be relative to described Grip slipper is moved, and moving direction is vertical with the telescopic direction of the expansion link.Fixed seat is fixed on the wall, it is not necessary to use The supporting constructions such as tripod, take up an area region and reduce, by the rotation between expansion link and fixed seat and expansion link it is flexible The position of grip slipper can be adjusted, thermal infrared imager movement on grip slipper can adjust the position of thermal infrared imager.By this Infrared thermal imagery instrument bracket, can easily adjust position of the thermal infrared imager in space, improve infrared heat image instrument measuring Accuracy and testing efficiency., can after the completion of adjustment due to need not be hand-held, it is only necessary to which the position of thermal infrared imager is adjusted To use always, test job intensity is reduced, and the distance measured every time is consistent, is easy to the contrast of measurement result.

Brief description of the drawings

Fig. 1 is the structural representation for the infrared thermal imagery instrument bracket that embodiment 1 of the present utility model is provided.

Fig. 2 is the partial enlarged drawing at Fig. 1 A.

Fig. 3 is the structural representation of the end of the outer tube for the expansion link that embodiment 1 of the present utility model is provided.

Fig. 4 is sectional view of the expansion link of the offer of embodiment 1 of the present utility model at articulated elements.

Wherein：

1- fixed seats, 11- support arms, 12- rotary shafts, 2- expansion links, 21- telescoping tubes, 22- clamping elements, 23- expansion slots, 3- grip slippers, 31- gripping bases, 32- fixtures, 33- governor motions, 4- articulated elements, 41- locking pieces, 5- thermal imaging systems.

Embodiment

To make the utility model technical problem solved, the technical scheme used and the technique effect reached clearer, Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.

Embodiment 1

As Figure 1-Figure 4, a kind of infrared thermal imagery instrument bracket, including telescopic expansion link 2, use are present embodiments provided In clamping the grip slipper 3 of thermal infrared imager 5 and being fixed on the fixed seat 1 of metope, first end and the fixed seat 1 of expansion link 2 are hinged, Second end is fixed with grip slipper 3, and when grip slipper 3 is in releasing orientation, thermal infrared imager 5 can be moved relative to grip slipper 3, and Moving direction is vertical with the telescopic direction of expansion link 2.In practical application, as depicted in figs. 1 and 2, can be on the side of fixed seat 1 Edge sets mounting hole, and fixed seat 1 is fixed on into metope using swell fixture, can easily be applied to the interiors such as laboratory Region, it is not necessary to set the support frames such as tripod to support again, reduce the occupancy of ground space.Expansion link 2 is typically provided to Horizontal rotation in surface, can strengthen the stability of expansion link 2 and grip slipper 3, it is to avoid continue to turn under gravity after locking It is dynamic.Using the pin joint of expansion link 2 as the center of circle, the maximum length of expansion link 2 is (assuming that metope is flat in 180 ° of cambered surfaces of radius Directly, interfere without other), the rotation in the horizontal plane of expansion link 2 and the flexible of expansion link 2 can be by grip slipper 3 and infrared thermal imageries Instrument 5 is adjusted on the arbitrary position in this cambered surface, and movement of the thermal infrared imager 5 on grip slipper 3 can define along height Side is moved up, then thermal infrared imager 5 adjust on longitudinal direction and the position of level can easily adjustment position, improve red Accuracy and testing efficiency that outer thermal imaging system 5 is measured.Due to need not be hand-held, it is only necessary to which the position of thermal infrared imager 5 is carried out Adjustment, can always use after the completion of adjustment, reduce test job intensity, and the distance measured every time is consistent, is easy to The contrast of measurement result.

Expansion link 2 can not also be rotated in the horizontal plane.For example, when the stationary plane of fixed seat 1 is tilted and incomplete in itself When vertical, expansion link 2 is then corresponding to tilt rotation in surface, and plane of rotation is no longer horizontal plane.Now, expansion link 2 is in gravity Under effect, minimum point can be turned to, in order to prevent expansion link 2 from rotating under gravity, then needs reliably to lock after the completion of adjustment Determine expansion link 2.Thermal infrared imager 5 can not also be moved in longitudinal direction, such as after have adjusted the angle of expansion link 2 itself, Thermal infrared imager 5 is then likely to become oblique movement.But the moving direction of thermal infrared imager 5 should be flexible with expansion link 2 Direction keeps vertical, easily to adjust the position of thermal infrared imager 5 in different directions.In a word, fixed seat is fixed on wall After upper, the position of grip slipper 3 can be adjusted by the rotation between expansion link 2 and fixed seat 1 and the flexible of expansion link 2, The movement on grip slipper 3 of thermal infrared imager 5 can adjust the position of thermal infrared imager 5, by grip slipper 3 and thermal infrared imager The adjustment of 5 position, can easily adjust position of the thermal infrared imager in space, improve what thermal infrared imager 5 was measured Accuracy and testing efficiency, reduce test job intensity, also allow for the contrast of measurement result.

For the ease of the movement and locking on grip slipper 3 of thermal infrared imager 5, grip slipper 3 includes two pieces and mutually fastened The gripping base 31 of thermal infrared imager 5 can be held tightly from outside afterwards, one end of two pieces of gripping bases 31 is hinged, and the other end passes through hasp It is fixed.The chute moved for thermal infrared imager 5 is formed between two pieces of gripping bases 31.When hasp is not locked, two pieces of clampings Pedestal 31 is in loosening state, it is allowed to which thermal infrared imager 5 is moved, and after hasp is locked, two pieces of gripping bases 31 will be red from both sides Outer thermal imaging system 5 holds locking tightly.Hasp and the cooperation being hinged very easily can open and lock thermal infrared imager 5, adjustment speed Degree is fast.In addition to hasp, it can also be fixed, such as be tied by grab etc. by other fixtures 32 between two pieces of pedestals 31 Structure, as long as can easily open and lock.

In order to improve the measurement accuracy of thermal infrared imager, gripping base 31 is provided with governor motion along one end of moving direction 33, governor motion 33 includes that the adjustment bolt or adjusting screw of different length can be stretched into along moving direction.By rotating regulation Bolt or adjusting screw, are finely adjusted to the length that regulating bolt or adjusting screw are stretched into, and can relatively accurately adjust infrared The position of thermal imaging system 5, is adjusted to position as suitable as possible, so as to improve measurement accuracy by thermal infrared imager 5.

Articulated structure between fixed seat 1 and expansion link 2, specifically, is included in fixed seat 1 and is vertically installed with two pieces Rotary shaft 12 is provided between relative support arm 11, two pieces of support arms 11, the first end of expansion link 2 is connected with rotary shaft 12, It is easy to expansion link 2 to be rotated around rotary shaft 12.

During due to mounting-fixing base 1, the error of setting angle and installation site is unavoidably had, in adjustment infrared thermal imagery , can be by the flexible of expansion link 2 and around the rotation of rotary shaft 12 during the position of instrument 5, and thermal infrared imager 5 is in grip slipper 3 On movement adjust, but the angle of thermal infrared imager 5 is difficult in position adjusting mechanism regulation.As shown in Figure 2 and Figure 4, For the ease of adjusting the angle of thermal infrared imager 5, obtain in more preferable measurement result, the present embodiment, the first end of expansion link 2 connects Articulated elements 4 is connected to, and the axis that expansion link 2 can be around expansion link 2 on articulated elements 4 rotates, and is provided with articulated elements 4 by expansion link The locking piece 41 of 2 lockings, articulated elements 4 is connected with rotary shaft 12.By expansion link 2 on articulated elements 4 around expansion link 2 axis Rotation, can adjust the angle of the rotation of expansion link 2, grip slipper 3 and the overall axis around expansion link 2 of thermal infrared imager 5.Locking Part 41 and articulated elements 4 are relatively fixed, and locking piece 41 can lock expansion link 2 from both sides, keep angle after adjustment constant.As schemed Shown in 2, locking piece 41 can be passed through the fluting at middle part by screw and adjust locking degree.

In order to ensure that articulated elements 4 keeps stable after the rotation of rotary shaft 12, support arm 11 and the close-fitting of articulated elements 4 can be made, To cause two pieces of support arms 11 to clamp articulated elements 4 from both sides.The mode of close-fitting is mainly by between articulated elements 4 and support arm 11 Damping keep being relatively fixed, articulated elements 4 can be caused when turning to any position, can relatively good fixation.

Further, it is also possible to be threaded in the end of rotary shaft, the end of rotary shaft passes through the lock after support arm with outside Tight nut connection.Coordinated using locking nut and screw thread, the pressure between adjustment support arm and articulated elements, and then adjustment damping, Keep locking.The mode locked using locking nut, is locked very reliable.

In the present embodiment, for the ease of the flexible of expansion link 2, expansion link 2 includes at least two telescoping tubes being socketed successively 21, two telescoping tubes 21 socket-connected are clamped by clamping element 22.The socket that telescoping tube 21 is adjusted after clamping element 22 can be unclamped Length, clamping element 22 is locked after the completion of adjustment again.As shown in figures 1 and 3, two telescoping tubes 21 socket-connected are respectively outer tube And inner tube, the end of outer tube offers external screw thread, and outer tube offers expansion slot 23 from end vertically, the end of outer tube it is interior Footpath is slightly less than the external diameter of inner tube, and expansion slot 23 allows outer dilator tube, so as to allow inner tube to penetrate.Clamping element 22 includes gripping sleeve, Gripping sleeve is sheathed on outside external screw thread and coordinated with external screw thread, by screwing gripping sleeve, the end of outer tube can be forced to shrink, clamped Inner tube, completes locking process.When unscrewing gripping sleeve, the end of outer tube can be expanded, and no longer clamp inner tube, be easy to stretching into for inner tube Or stretch out, complete the length adjustment of expansion link 2.

Above content is only preferred embodiment of the present utility model, for one of ordinary skill in the art, according to this reality With new thought, it will change in specific embodiments and applications, this specification content should not be construed as To limitation of the present utility model.

Claims (10)

1. a kind of infrared thermal imagery instrument bracket, it is characterised in that including telescopic expansion link (2), for clamping thermal infrared imager (5) grip slipper (3) and the fixed seat (1) for being fixed on metope, first end and the fixed seat (1) of the expansion link (2) are cut with scissors Connect, the second end is fixed with the grip slipper (3), when the grip slipper (3) is in releasing orientation, the thermal infrared imager (5) Can be mobile relative to the grip slipper (3), and moving direction is vertical with the telescopic direction of the expansion link (2).

2. infrared thermal imagery instrument bracket as claimed in claim 1, it is characterised in that the grip slipper (3) is mutually buckled including two pieces The gripping base (31) of the thermal infrared imager (5), one end of two pieces of gripping bases (31) can be held after conjunction tightly from outside It is hinged, the other end is fixed by fixture (32).

3. infrared thermal imagery instrument bracket as claimed in claim 2, it is characterised in that the gripping base (31) is along the infrared heat One end of the moving direction of picture instrument (5) is provided with governor motion (33), and the governor motion (33) is can be along the moving direction Stretch into the adjustment bolt or adjusting screw of different length.

4. infrared thermal imagery instrument bracket as claimed in claim 2, it is characterised in that the fixture (32) is hasp.

5. the infrared thermal imagery instrument bracket as described in claim any one of 1-4, it is characterised in that vertical on the fixed seat (1) It is provided between two pieces of relative support arms (11), two pieces of support arms (11) and is provided with rotary shaft (12), the expansion link (2) first end is connected with the rotary shaft (12).

6. infrared thermal imagery instrument bracket as claimed in claim 5, it is characterised in that the first end of the expansion link (2) is connected with Articulated elements (4), and the expansion link (2) can on the articulated elements (4) around the expansion link (2) axis rotate, the hinge The locking piece (41) for locking the expansion link (2), the articulated elements (4) and the rotary shaft (12) are provided with fitting (4) Connection.

7. infrared thermal imagery instrument bracket as claimed in claim 6, it is characterised in that the support arm (11) and the articulated elements (4) close-fitting, to cause two pieces of support arms (11) to clamp the articulated elements (4) from both sides.

8. infrared thermal imagery instrument bracket as claimed in claim 6, it is characterised in that the end of the rotary shaft (12) is provided with spiral shell Line, the end of the rotary shaft (12) is connected with the locking nut in outside afterwards through the support arm (11).

9. infrared thermal imagery instrument bracket as claimed in claim 5, it is characterised in that the expansion link (2) include at least two according to The telescoping tube (21) of secondary socket, two telescoping tubes (21) socket-connected are clamped by clamping element (22).

10. infrared thermal imagery instrument bracket as claimed in claim 9, it is characterised in that two telescoping tubes (21) for socket-connecting Respectively outer tube and inner tube, the end of the outer tube offers external screw thread, and the outer tube offers expansion from end vertically Groove (23), the internal diameter of the end of the outer tube is slightly less than the external diameter of inner tube, and the clamping element (22) includes gripping sleeve, the clamping It is sheathed on outside the external screw thread and coordinates with the external screw thread.