CN207850541U - Thermal imaging system and monitoring device - Google Patents

Abstract

The utility model provides a kind of thermal imaging system and monitoring device, is related to monitoring device technical field.The thermal imaging system includes thermal imaging system ontology, mounting base and beam, and mounting base includes frame and bottom plate, and bottom plate is located inside frame, and there are gaps between frame, beam is set to the bottom of bottom plate and frame, bottom plate and frame is linked together, thermal imaging system ontology is fixedly arranged on bottom plate；The monitoring device includes supply unit, display and above-mentioned thermal imaging system, and display is electrically connected with the plug of thermal imaging system ontology, supply unit respectively.There are gaps between pedestal and frame, beam links together pedestal and frame, frame can be greatly reduced and be transmitted to pedestal, and then be transmitted to the shaking force intensity of thermal imaging system ontology, to improve the clarity that thermal imaging system ontology monitors the accuracy and acquisition thermal image of position.

Description

Thermal imaging system and monitoring device

Technical field

The utility model is related to monitoring device technical field more particularly to a kind of thermal imaging system and monitoring devices.

Background technology

Thermal imaging system is that the infrared energy of measured target is received using infrared detector and optical imagery object lens, and will It measures in distribution pattern reflection to the light-sensitive element of infrared detector, to obtain Infrared Thermogram, this thermography and object table The heat distribution field in face is corresponding, and generally thermal imaging system is exactly that the invisible infrared energy that object is sent out is changed into visible heat The different colours of image, the upper surface of thermal image represent the different temperatures of testee, by checking thermal image, it is observed that quilt Survey the bulk temperature distribution situation of target, the heat condition of goal in research, to carry out the judgement of further work.

When monitored component is in dynamic motion, thermal imaging system needs to move synchronously with detected component, e.g., thermal imaging system When bucket tooth for monitoring power shovel, thermal imaging system needs to be mounted in power shovel head sheave, as electric bucket tooth moves synchronously, is carried out to it Monitoring in real time, and vibrations are violent when power shovel work, thermal imaging system, which is given a shock, is easy to happen position offset, and influences it and monitor position Accuracy, and thermal imaging system be given a shock acquisition thermal map image sharpness it is poor.

Utility model content

The purpose of this utility model is to provide a kind of thermal imaging system and monitoring devices, to solve heat existing in the prior art Be easy to happen position offset as being given a shock in instrument monitoring process, and influence its monitor position accuracy, and thermal imaging system by Shake the poor technical problem of the thermal map image sharpness obtained.

Thermal imaging system provided by the utility model, including thermal imaging system ontology, mounting base and beam, the mounting base include side Frame and bottom plate, the bottom plate are located inside the frame, and there are gaps, the beam to be set to described between the frame The bottom of bottom plate and the frame links together the bottom plate and the frame, and the frame is used to connect with external device (ED) It connects；The thermal imaging system ontology is fixedly arranged on the bottom plate.

Further, the bottom of the bottom plate is equipped with the first groove, and the bottom of the frame is equipped with the second groove, and described the Embedding groove is collectively formed in one groove and second groove, and the beam is embedded in the embedding groove.

Further, the bottom of the beam, which compresses, pressing plate, and the pressing plate includes the first pressing plate and the second pressing plate, institute It is corresponding with first groove to state the first pressing plate, second pressing plate is corresponding with second groove.

Further, the thermal imaging system ontology includes the camera, processor and plug being sequentially connected electrically, on the bottom plate Detachable to be installed with fixed frame, the camera shooting head detachable type is fixedly arranged on the fixed frame, and the processor is detachable It is fixedly arranged on the bottom plate, the plug with display for connecting.

Further, it is covered with shell outside the thermal imaging system ontology, the frame is detachable solid with the inner walls Fixed connection, the shell are equipped with window, and the window is corresponding with the camera lens of the camera；The plug insert is in described On the side wall of shell.

Further, temperature control device is equipped in the shell, the temperature control device includes the temperature sensing being sequentially connected electrically Device and heating plate, the temperature sensor control the heated condition of the heating plate by detecting shell body temperature.

Further, the shell is equipped with installing port, and detachable connection has heat sink on the installing port, described to dissipate Hot plate is equipped with radiated rib.

Further, further include u-bracket, one group of steel-wire screw-socket, the U are equipped on the opposite two side of the shell One in two support arms of type holder is connected to by threaded fastener in the steel-wire screw-socket on one side wall of the shell, Another described support arm is connected to by threaded fastener in the steel-wire screw-socket on shell another side wall.

Further, steel-wire screw-socket described in every group is two, and two steel-wire screw-sockets are externally provided with compressing member, the compression Part includes the first gasket and the second gasket, is set on first gasket there are two first through hole, second gasket is equipped with two A connection-peg, two connection-pegs are inserted into respectively in two first through hole, and the connection-peg is equipped with the second through-hole, institute It is corresponding with the threaded hole of the steel-wire screw-socket to state the second through-hole；

The support arm is equipped with mounting hole and fan-shaped rotation hole, and the mounting hole and the fan-shaped rotation hole are arranged respectively In on two connection-pegs of second gasket, and it is pressed between second gasket and first gasket, described second Gasket external compression has third pressing plate；The third pressing plate, second gasket, first gasket and the steel-wire screw-socket pass through Threaded fastener links together.

Another of the utility model is designed to provide a kind of monitoring device, including supply unit, display and above-mentioned Thermal imaging system, the display are electrically connected with the plug of the thermal imaging system ontology, the supply unit respectively, which has All technique effects of above-mentioned thermal imaging system.

The utility model thermal imaging system and monitoring device have the beneficial effect that：

Thermal imaging system provided by the utility model and monitoring device, wherein thermal imaging system includes monitored for receiving and converging The infra-red radiation of object emission, the thermal imaging system ontology that thermal radiation signal is changed into thermal image signal, for installing fixed thermal imagery The mounting base of instrument ontology and for the beam to thermal imaging system ontology damping；Wherein, monitoring device includes above-mentioned thermal imaging system, is used for The supply unit of power supply and display for being shown to the thermal image signal that thermal imaging system transmits.

It is illustrated for monitoring electric bucket tooth, in use, thermal imaging system ontology is mounted on plate upper surface, mounting base The bottom surface of frame connect with power shovel head sheave, vibrations are generated when power shovel works, which passes to installation by power shovel head sheave The frame of seat, there are gaps between bottom plate and frame, are linked together by beam, therefore frame passes to the shaking force The shaking force is passed to bottom plate by beam, beam, which is finally passed to thermal imaging system ontology by bottom plate, the shaking force After the transmission of multiple components, intensity greatly reduces, to reduce the vibrations that thermal imaging system ontology is subject to；In addition, beam and side Frame, contacts baseplate position between there is interval, shaking force passes to beam by frame by the position contacted with beam, Beam itself transmits the shaking force, and the shaking force is passed to bottom plate by the position with contacts baseplate, wherein beam There is angle in the direction of transfer for itself transmitting the direction of transfer and frame, bottom plate of the shaking force, frame passes to beam Shaking force is largely absorbed by beam, and only small part passes to bottom plate and thermal imaging system ontology, can further decrease thermal imagery The intensity that instrument ontology is given a shock；In addition, when beam and frame material difference, beam is different with the amplitude of frame, shake After the transmission of beam, intensity weakens power significantly, can further decrease the intensity that thermal imaging system ontology is given a shock, from And it improves the accuracy of thermal imaging system ontology monitoring position and obtains the clarity of thermal image.

That is, there are gaps, beam, and pedestal and frame link together between pedestal and frame, side can be greatly reduced Frame is transmitted to pedestal, and then is transmitted to the shaking force intensity of thermal imaging system ontology, to improve the standard that thermal imaging system ontology monitors position Exactness and the clarity for obtaining thermal image.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the three dimensional structure diagram for the thermal imaging system that the utility model embodiment provides；

Fig. 2 rotates the structure in different angle for the thermal imaging system middle casing opposite brackets that the utility model embodiment provides Schematic diagram；

Fig. 3 is the schematic cross-sectional view in the directions A-A in Fig. 1；

Fig. 4 is the first visual angle that mounting base, beam are connected with pressing plate in the thermal imaging system that the utility model embodiment provides Three dimensional structure diagram；

Fig. 5 is the second visual angle that mounting base, beam are connected with pressing plate in the thermal imaging system that the utility model embodiment provides Three dimensional structure diagram；

Fig. 6 is the three-dimensional structure signal that u-bracket is connect with compressing member in the thermal imaging system that the utility model embodiment provides Figure；

Fig. 7 is the schematic cross-sectional view in the directions B-B in Fig. 6.

Icon：1- thermal imaging system ontologies；2- mounting bases；3- beams；4- pressing plates；5- fixed frames；6- shells；7- Temperature control device；8-U type holders；9- compressing members；11- cameras；12- processors；13- plugs；21- frames；The bottoms 22- Plate；The first pressing plates of 41-；The second pressing plates of 42-；61- windows；62- installing ports；63- heat sinks；631- radiated ribs； 64- steel-wire screw-sockets；71- temperature sensors；72- heating plates；81- support arms；811- mounting holes；812- sectors rotate Hole；The first gaskets of 91-；911- first through hole；The second gaskets of 92-；The second through-holes of 921-；922- connection-pegs；93- thirds Pressing plate.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition The concrete meaning of language in the present invention.

The present embodiment provides a kind of thermal imaging systems, as shown in Figure 3-Figure 5, including thermal imaging system ontology 1, mounting base 2 and beam 3, mounting base 2 includes frame 21 and bottom plate 22, and bottom plate 22 is located inside frame 21, and there are gap, dampings between frame 21 Pad 3 is set to the bottom of bottom plate 22 and frame 21, and bottom plate 22 and frame 21 are linked together, and frame 21 is used to connect with external device (ED) It connects；Thermal imaging system ontology 1 is fixedly arranged on bottom plate 22.

The present embodiment also provides a kind of monitoring device, including supply unit, display and above-mentioned thermal imaging system, display difference It is electrically connected with plug 13, the supply unit of thermal imaging system ontology 1.

Thermal imaging system provided in this embodiment and monitoring device, wherein thermal imaging system includes for receiving and converging monitored object Thermal radiation signal is changed into the thermal imaging system ontology 1 of thermal image signal, for installing fixed thermal imaging system by the infra-red radiation of body transmitting The mounting base 2 of ontology 1 and for the beam 3 to 1 damping of thermal imaging system ontology；Wherein, monitoring device includes above-mentioned thermal imaging system, use In the supply unit of power supply and display for being shown to the thermal image signal that thermal imaging system transmits.

It is illustrated for monitoring electric bucket tooth, in use, thermal imaging system ontology 1 is mounted on 22 upper surface of bottom plate, peace The bottom surface for filling the frame 21 of seat 2 is connect with power shovel head sheave, and vibrations are generated when power shovel works, which is transmitted by power shovel head sheave To the frame 21 of mounting base 2, there are gaps between bottom plate 22 and frame 21, are linked together by beam 3, therefore frame 21 The shaking force is passed into beam 3, which is passed to bottom plate 22 by beam 3, and bottom plate 22 finally passes the shaking force Pass thermal imaging system ontology 1, the shaking force by multiple components transmission after, intensity greatly reduces, to reduce thermal imaging system ontology 1 by The vibrations arrived；In addition, between the position that beam 3 is contacted with frame 21, bottom plate 22 exist interval, frame 21 by with beam Shaking force is passed to beam 3 by the positions of 3 contacts, and beam 3 itself transmits the shaking force, and by the shaking force by with bottom The position that plate 22 contacts passes to bottom plate 22, wherein beam 3 itself transmits direction of transfer and frame 21, the bottom of the shaking force There is angle in the direction of transfer of plate 22, the shaking force that frame 21 passes to beam 3 is largely absorbed by beam 3, only Small part passes to bottom plate 22 and thermal imaging system ontology 1, can further decrease the intensity that thermal imaging system ontology 1 is given a shock；In addition, When beam 3 and 21 material difference of frame, beam 3 is different with the amplitude of frame 21, and shaking force passes through the transmission of beam 3 Afterwards, intensity weakens significantly, can further decrease the intensity that thermal imaging system ontology 1 is given a shock, and is supervised to improve thermal imaging system ontology 1 The clarity of accuracy and acquisition thermal image that location is set.

That is, there are gaps, beam 3, and pedestal and frame 21 link together between pedestal and frame 21, it can be significantly It reduces frame 21 and is transmitted to pedestal, and then be transmitted to the shaking force intensity of thermal imaging system ontology 1, supervised to improve thermal imaging system ontology 1 The clarity of accuracy and acquisition thermal image that location is set.

Specifically, as shown in Figure 4 and Figure 5, frame 21 can be U-shaped frame, round frame or rectangular shaped rim etc., bottom plate 22 Set on the inside that frame 21 surrounds；Frame 21 and bottom plate 22 can select stainless steel material to be made, and beam 3 selects silicon rubber material Material is made.

In the present embodiment, as shown in Figure 4 and Figure 5, the bottom of bottom plate 22 is equipped with the first groove, and the bottom of frame 21 is equipped with the Embedding groove is collectively formed in two grooves, the first groove and the second groove, and beam 3 is embedded in embedding groove.Beam 3 is embedded in In the embedding groove that one groove and the second groove are collectively formed, the position in embedding groove of beam 3 is fixed, and beam 3 can be improved The firmness and stability of connecting bottom board 22 and frame 21.

In the present embodiment, as shown in figure 5, can be compressed in the bottom of beam 3 has pressing plate 4, pressing plate 4 includes the first pressing plate 41 and second pressing plate 42, the first pressing plate 41 is corresponding with the first groove, and the second pressing plate 42 is corresponding with the second groove.First pressing plate 41 and second pressing plate 42 for being fixed beam 3, the first pressing plate 41 is corresponding with the first groove, the second pressing plate 42 and second Groove is corresponding, then there is interval between the first pressing plate 41 and the second pressing plate 42, and frame 21 is connected in power shovel head sheave, frame 21 Or power shovel head sheave passes to the shaking force of the second pressing plate 42 and needs the transmission by beam 3 that can just be transmitted to bottom plate 22, second The transmission area of pressing plate 42 is significantly smaller than the area of the first pressing plate 41, to which beam 3 is fixed on frame 21 and bottom in realization On the basis of on plate 22, when the second pressing plate 42 of reduction connect or is wholely set with the first pressing plate 41, the second pressing plate 42 and first pressure Plate 41 transmits shaking force simultaneously, and transmission area is big, and weakens the occurrence of less to shaking force.

In the present embodiment, as shown in figure 3, thermal imaging system ontology 1 may include the camera 11 being sequentially connected electrically, processor 12 With plug 13, detachable on bottom plate 22 to be installed with fixed frame 5, camera 11 is detachable to be fixedly arranged on fixed frame 5, processor 12 it is detachable be fixedly arranged on bottom plate 22, plug 13 inlay for being connect with display.The installation of camera 11 in thermal imaging system ontology 1 Positional stability directly affects the performance of thermal imaging system, and fixed frame 5 carries out position of the camera 11 on bottom plate 22 further It is fixed, the degree of firmly installing of camera 11 is can effectively improve, reduction camera 11, which is given a shock, to shift and influence to monitor The occurrence of effect.Specifically, processor 12 may include detector and converter, the heat that detector acquires camera 11 Radiation signal is converted to electric signal, and converter converts electrical signals to thermal image signal, and thermal image signal is transmitted by plug 13 It is shown as thermal image to display；Plug 13 can select aviation plug 13.

In the present embodiment, as depicted in figs. 1 and 2, shell 6, frame 21 and shell can be covered with outside thermal imaging system ontology 1 6 inner walls are detachable to be fixedly connected, and shell 6 is equipped with window 61, and window 61 is corresponding with the camera lens of camera 11；Plug 13 is inlayed On the side wall of shell 6.Shell 6 covers at outside thermal imaging system ontology 1, plays a protective role to thermal imaging system ontology 1, to reduce Destruction of the external factor to thermal imaging system ontology 1 can such as reduce a large amount of dust generated when power shovel work in thermal imaging system ontology 1 The damaging of electronic component, external sleety weather are to damage etc. caused by thermal imaging system ontology 1, to improve the work of thermal imaging system ontology 1 Make precision and service life.

Specifically, shell 6 may include protecgulum, cylinder and rear cover, three surrounds chamber and is carried out to thermal imaging system ontology 1 jointly Protection, wherein window 61 is arranged on protecgulum, and the setting of plug 13 covers after；In order to improve the leakproofness of shell 6, Ke Yi Being blocked on window 61 has transparent glasses lens, card slot can be equipped on the side wall of window 61, transparent glasses lens can be in card slot；In order to carry The stability maintenance of high eyeglass can be equipped with gasket in eyeglass both sides, and is pressed on gasket and transparent glasses lens by tabletting On protecgulum；In order to reduce influence of the external factor to transparent glasses lens clarity, it can be equipped on protecgulum top and block eaves, block eaves Protruding protecgulum blocks the space above transparent glasses lens；In order to improve the sealing connected between plug 13 and rear cover Property, can also gasket be set between plug 13 and rear cover；Specifically, shell 6 can select aluminum alloy materials to be made, gasket Silicon rubber is selected to be made.

In the present embodiment, as shown in figure 3, temperature control device 7 can also be equipped in shell 6, temperature control device 7 includes electric successively The temperature sensor 71 and heating plate 72 of connection, temperature sensor 71 control heating plate 72 by temperature in detection shell 6 Heated condition.It is higher to operating temperature requirements since camera 11 and processor 12 etc. belong to precision electronic element, work as thermal imaging system When operating ambient temperature is relatively low, e.g., it is applied to the very cold area in Xizang of 5500 meters of height above sea level, temperature sensor 71 detects shell 6 When internal temperature is less than setting value, heating plate 72 is opened in control, and heating plate 72 is internally heated shell 6, so that shell In body 6 in certain temperature range, it is ensured that the normal work of thermal imaging system ontology 1；When temperature sensor 71 detects in shell 6 When temperature is higher than upper limit value, heating plate 72 is closed in control.

In the present embodiment, as shown in figures 1 and 3, installing port 62 can be equipped on shell 6, it is detachable on installing port 62 Formula is connected with heat sink 63, and heat sink 63 is equipped with radiated rib 631.When the operating ambient temperature of thermal imaging system is higher or work Belong to the larger weather of day and night temperature as environment, electronic component work generates amount of heat, which transmits by heat sink 63 To outside shell 6, the setting of radiated rib 631 can increase heat sink 63 on the basis of not changing 63 volume of heat sink Effective heat dissipation area improves the radiating efficiency of heat sink 63, and heat sink 63 distributes the heat in shell 6, to reduce shell 6 internal temperature of body is excessively high, the occurrence of influencing the normal work of thermal imaging system ontology 1, or even burn out electronic component.

In the present embodiment, as shown in figs. 1,2 and 6, thermal imaging system can also include u-bracket 8, shell 6 it is opposite two One group of steel-wire screw-socket 64 is equipped on side wall, one in two support arms 81 of u-bracket 8 is connected to by threaded fastener In steel-wire screw-socket 64 on 6 one side walls of shell, another support arm 81 is connected to another side of shell 6 by threaded fastener In steel-wire screw-socket 64 on wall.In use, u-bracket 8 is connect with power shovel head sheave, shaking force is passed to U-shaped branch by power shovel head sheave Frame 8, u-bracket 8 pass to shell 6, frame 21, beam 3, bottom plate 22 and thermal imaging system ontology 1 successively again, and transferring element increases It is more, it can further weaken the transmission of shaking force, the corresponding stability for improving thermal imaging system ontology 1；Two supports of u-bracket 8 Arm 81 is supported the opposite sides of shell 6, can improve the stability of strutting system to shell 6；Steel wire spiral shell is equipped on shell 6 Set 64 is coordinated with steel-wire screw-socket 64 using threaded fastener and is fixed in support arm 81 and shell 6 together, can be greatly reduced straight Connect by threaded fastener screw in shell 6 when to caused by shell 6 damage and connectivity robustness it is poor the occurrence of.

Specifically, in the present embodiment, as shown in fig. 7, every group of steel-wire screw-socket 64 can be two, outside two steel-wire screw-sockets 64 Equipped with compressing member 9, compressing member 9 includes the first gasket 91 and the second gasket 92, sets that there are two first through hole on the first gasket 91 911, it sets on the second gasket 92 there are two connection-peg 922, two connection-pegs 922 are inserted into two first through hole 911 respectively, grafting First 922 are equipped with the second through-hole 921, and the second through-hole 921 is corresponding with the threaded hole of steel-wire screw-socket 64；Support arm 81 is equipped with solid Determine hole 811 and fan-shaped rotation hole 812, mounting hole 811 and fan-shaped rotation hole 812 are sheathed on two grafting of the second gasket 92 respectively It on first 922, and is pressed between the second gasket 92 and the first gasket 91,92 external compression of the second gasket has third pressing plate 93；Third Pressing plate 93, the second gasket 92, the first gasket 91 and steel-wire screw-socket 64 are linked together by threaded fastener.When installation, first Two first through hole 911 of the first gasket 91 are corresponding with two steel-wire screw-sockets 64 on shell 6, then by u-bracket 8 Mounting hole 811 on support arm 81 is matched with one of steel-wire screw-socket 64, another steel-wire screw-socket 64 and fan-shaped rotation hole 812 Match, the angle of camera 11 is adjusted around 811 roll-shell 6 of mounting hole, steel-wire screw-socket 64 turns in fan-shaped rotation hole 812 It is dynamic, after the completion of angular adjustment, the connection-peg 922 of the second gasket 92 is corresponded to and is inserted into the first through hole 911 of the first gasket 91, it will Third pressing plate 93 is pressed in outside the second gasket 92, and third pressing plate 93, consolidating on support arm 81 are sequentially passed through using threaded fastener The second through-hole 921 determined on hole 811 or fan-shaped rotation hole 812, the second gasket 92 screws in the threaded hole of steel-wire screw-socket 64, to Shell 6 is fixed on support arm 81；It, only need to be by third pressing plate when needing the rotational angle of 6 opposed support structure 81 of adjustment housings 93 and second gasket 92 disassemble, roll-shell 6.

Similar, as shown in fig. 6, mounting hole 811 and fan-shaped rotation hole can also be equipped on the linking arm of u-bracket 8 812, when the linking arm of u-bracket 8 is connected in power shovel head sheave, it can also be rotated relative to power shovel head sheave and carry out angular adjustment, with Camera 11 is enable to adjust angle appropriate.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that： It can still modify to the technical solution recorded in previous embodiment, either to which part or all technical features Carry out equivalent replacement；And these modifications or replacements, the utility model embodiment that it does not separate the essence of the corresponding technical solution The range of technical solution.

Claims (10)

1. a kind of thermal imaging system, which is characterized in that including thermal imaging system ontology (1), mounting base (2) and beam (3), the mounting base (2) include frame (21) and bottom plate (22), it is internal that the bottom plate (22) is located at the frame (21), and with the frame (21) it Between there are gap, the beam (3) is set to the bottom of the bottom plate (22) and the frame (21), by the bottom plate (22) and The frame (21) links together, and the frame (21) with external device (ED) for connecting；The thermal imaging system ontology (1) is fixedly arranged on On the bottom plate (22).

2. thermal imaging system according to claim 1, which is characterized in that the bottom of the bottom plate (22) is equipped with the first groove, institute The bottom for stating frame (21) is equipped with the second groove, and embedding groove is collectively formed in first groove and second groove, described to subtract Shake pad (3) is embedded in the embedding groove.

3. thermal imaging system according to claim 2, which is characterized in that the bottom of the beam (3), which compresses, pressing plate (4), The pressing plate (4) includes the first pressing plate (41) and the second pressing plate (42), and first pressing plate (41) is opposite with first groove It answers, second pressing plate (42) is corresponding with second groove.

4. thermal imaging system according to any one of claim 1-3, which is characterized in that the thermal imaging system ontology (1) include according to Camera (11), processor (12) and the plug (13) of secondary electrical connection, it is detachable on the bottom plate (22) to be installed with fixed frame (5), the camera (11) is detachable is fixedly arranged on the fixed frame (5), and the processor (12) is detachable to be fixedly arranged on On the bottom plate (22), the plug (13) with display for connecting.

5. thermal imaging system according to claim 4, which is characterized in that it is covered with shell (6) outside the thermal imaging system ontology (1), The frame (21) with the shell (6) inner wall is detachable is fixedly connected, the shell (6) is equipped with window (61), described Window (61) is corresponding with the camera lens of the camera (11)；The plug (13) is embedded on the side wall of the shell (6).

6. thermal imaging system according to claim 5, which is characterized in that temperature control device (7) is equipped in the shell (6), it is described Temperature control device (7) includes the temperature sensor (71) being sequentially connected electrically and heating plate (72), and the temperature sensor (71) passes through Shell (6) interior temperature is detected to control the heated condition of the heating plate (72).

7. thermal imaging system according to claim 5, which is characterized in that the shell (6) is equipped with installing port (62), the peace Detachable connection has heat sink (63), the heat sink (63) to be equipped with radiated rib (631) on dress mouth (62).

8. thermal imaging system according to claim 5, which is characterized in that further include u-bracket (8), the shell (6) is opposite One group of steel-wire screw-socket (64) is equipped on two side, one in two support arms (81) of the u-bracket (8) passes through screw thread Fastener is connected to the steel-wire screw-socket (64) on (6) side walls of the shell Nei, another described support arm (81) passes through spiral shell Line fastener is connected to the steel-wire screw-socket (64) on shell (6) another side wall Nei.

9. thermal imaging system according to claim 8, which is characterized in that steel-wire screw-socket (64) described in every group is two, two institutes It states steel-wire screw-socket (64) and is externally provided with compressing member (9), the compressing member (9) includes the first gasket (91) and the second gasket (92), institute First through hole (911) there are two being set on the first gasket (91) is stated, is set on second gasket (92) there are two connection-peg (922), Two connection-pegs (922) are inserted into respectively in two first through hole (911), and the connection-peg (922) is equipped with second Through-hole (921), second through-hole (921) are corresponding with the threaded hole of the steel-wire screw-socket (64)；

The support arm (81) is equipped with mounting hole (811) and fan-shaped rotation hole (812), the mounting hole (811) and the fan Shape rotation hole (812) is sheathed on respectively on two connection-pegs (922) of second gasket (92), and is pressed in second pad Between piece (92) and first gasket (91), the second gasket (92) external compression has third pressing plate (93)；The third pressure Plate (93), second gasket (92), first gasket (91) and the steel-wire screw-socket (64) are connected by threaded fastener Together.

10. a kind of monitoring device, which is characterized in that described in any one of supply unit, display and claim 4-7 Thermal imaging system, the display is electrically connected with plug (13), the supply unit of the thermal imaging system ontology (1) respectively.