CN115753879A - Infrared sensitization dyestuff light and heat conversion testing arrangement - Google Patents

Abstract

The invention discloses an infrared sensitizing dye photothermal conversion testing device which comprises an assembly shell and a top cover, wherein a vibration generating mechanism is arranged inside the assembly shell, a data feedback mechanism is arranged at the top of the assembly shell, a cold air conveying mechanism is arranged inside the vibration generating mechanism, the vibration generating mechanism comprises two support frames, a storage platform is fixedly arranged between the tops of the two support frames, an external connection ring is fixedly arranged at the bottom of the storage platform, a group of fillet stop blocks are fixedly arranged on the inner surface wall of the external connection ring, a tray is fixedly arranged at the bottom of the inner wall of the assembly shell, the mechanism adopts a mechanical transmission principle, continuously releases vibration force in a material bearing part, and can gradually scatter piled dyes by utilizing the characteristic of light weight of the dyes, so that the dyes are distributed uniformly on the material bearing part, each part of the dyes can fully absorb infrared radiation energy, the testing quality of the dyes by the device is improved, and the accuracy of a later-stage testing result is ensured.

Description

Infrared sensitization dyestuff light and heat conversion testing arrangement

Technical Field

The invention relates to the technical field of photo-thermal test equipment, in particular to an infrared sensitizing dye photo-thermal conversion test device.

Background

The infrared sensitizing dye is one of the photolatent sensitizing dyes, also called sensitizing dye, and is a dye which can expand the color sensitivity range of a silver halide emulsion from blue-violet light to green, red and infrared light and improve the total light sensitivity of the emulsion.

In the prior art, as in the chinese patent application No.: CN 215263226U discloses an infrared sensitization dyestuff light and heat conversion testing arrangement, including box and preliminary treatment subassembly, the four corners corner of box bottom is all fixed and is equipped with the supporting leg, and the fixed lamp house that is equipped with in middle part of box top inner wall, the bottom mounting of lamp house are equipped with a plurality of infrared lamp, and the preliminary treatment subassembly includes the feeder hopper, handles pipe, solenoid valve and filling tube, and the one end of filling tube extends to the inside of box, and the filling tube is the slope form, the beneficial effects of the utility model are that: the electric heating tubes can preheat the infrared sensitizing dye in the treatment tube, so that a better test effect is obtained; the heating condition of the dye under the low-temperature condition can be tested under the refrigeration of the evaporator, so that more comprehensive test can be carried out; the push pedal will survey infrared sensitization dyestuff on the board under electric putter's effect and push into out the hopper inside and discharge, avoid the operator to the direct contact of dyestuff, safe in utilization and use manpower sparingly.

However, the above patents have the following disadvantages:

after the production of the infrared sensitizing dye is completed, in order to test the photo-thermal conversion capacity of the infrared sensitizing dye, infrared light is generally used for irradiation, the dye is used for absorbing infrared radiation energy, and the dye is enabled to release corresponding temperature.

We have therefore proposed an infrared sensitizing dye photothermal conversion test device to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide an infrared sensitizing dye photothermal conversion testing device, which can continuously drive a metal elastic sheet to rotate in an external ring by a vibration generating mechanism connected with an assembly shell, can enable the metal elastic sheet to generate large-amplitude deformation by utilizing a driving part in the mechanism, can quickly reset by utilizing the characteristics of a material after each metal elastic sheet is separated from one fillet stop block in the process of contacting each metal elastic sheet with the fillet stop block, can lead the surface of the metal elastic sheet to be flapped on the surface of the other fillet stop block in the resetting process due to the short distance between each fillet stop block, and can lead a plurality of metal elastic sheets to generate continuous vibration in the object platform in reciprocating motion and gradually diffuse to the top of the object platform, and has smaller self mass under the vibration action under the condition that dyes are mostly in powder form.

In order to achieve the purpose, the invention provides the following technical scheme: the infrared sensitizing dye photothermal conversion testing device comprises an assembly shell and a top cover, wherein an oscillation generating mechanism is arranged inside the assembly shell, a data feedback mechanism is arranged at the top of the assembly shell, and a cold air conveying mechanism is arranged inside the oscillation generating mechanism;

vibrate emergence mechanism includes two support frames, two fixed mounting has platform between the top of support frame, platform's bottom fixed mounting has outer ring, outer ring inside surface wall fixed mounting has a set of fillet dog, the inner wall bottom fixed mounting of assembly shell has the tray, the top fixed of tray is inserted and is equipped with a set of metal pole, and is a set of fixed cover is equipped with the connection lantern ring between the exterior wall of metal pole, the interior surface wall fixed insertion of connection lantern ring is equipped with servo motor, servo motor's output fixedly connected with transfer line, the top fixed mounting of transfer line has the tap, the exterior wall fixed insertion of tap is equipped with a set of extension board, and the quantity and the fillet dog of a set of extension board equal, and is a set of outer fluting has all been seted up to every exterior wall in the extension board, every outer fluting inside all has the boss, and is a set of metal shrapnel through screw fixed mounting, platform's top fixed mounting has the border.

Preferably, servo motor's top fixed mounting has spacing sleeve, spacing sleeve's inside is arranged in the outward appearance wall activity of transfer line, sets up spacing sleeve, and the stability when the servo motor is done is improved to the horizontal hunting range that produces when effectively restricting the transfer line and rotating.

Preferably, data feedback mechanism includes the grafting board, the top fixed mounting of grafting board is at the top of top cap, the inside fixed inserting of grafting board is equipped with a set of electric telescopic handle A, and is a set of fixed cover is equipped with the wiring board between electric telescopic handle A's the output, sets up electric telescopic handle A, can provide power support for the lateral shifting of wiring board for infrared ray that infrared spot lamp transmitted can evenly shine on every part dyestuff.

Preferably, a set of installation hole A has been seted up to the bottom of wiring board, and is a set of the equal fixedly connected with infrared shot-light in inside of installation hole A, installation hole B has been seted up to the bottom of wiring board, installation hole B's inside fixedly connected with optical imaging objective sets up optical imaging objective, can acquire the produced heat radiation of every part dyestuff, provides the condition for the later stage to this judgement of batching dyestuff performance.

Preferably, the outer wall of the assembly housing is fixedly provided with a reinforcing plate A, the outer wall of the reinforcing plate A is welded with an L-shaped frame, a group of internal connecting rods are fixedly inserted into the L-shaped frame, an infrared imager is fixedly sleeved on the outer wall of the group of internal connecting rods, a display screen is arranged inside the infrared imager, the infrared imager is arranged, an electric signal fed back by the optical imaging objective lens can be received, the electric signal is processed step by step, and a thermal radiation range is converted into a visible image for an operator to check.

Preferably, the exterior wall of assembly shell is provided with connection socket, connection socket's inside fixedly connected with a set of information line, a set of the output of information line all is connected with infrared imager's wiring end, sets up the information line, and the information that optical imaging objective acquireed is inputed rapidly to infrared imager's inside with the information line through the inside winding displacement of equipment, provides the condition for the transmission of signal.

Preferably, air conditioning conveying mechanism includes a set of locating plate, and is a set of the equal fixed mounting in the inner wall bottom of storage platform in bottom of locating plate is a set of fixed the inserting is equipped with the condenser pipe between the exterior wall of locating plate, storage platform's outer wall one side is provided with a set of air inlet joint, and the exhaust end of a set of air inlet joint all runs through the exterior wall of condenser pipe to be linked together with the inside of condenser pipe, set up the condenser pipe, sustainable receiving produced air conditioning in the refrigerating unit to diffusion through surperficial air conditioning influences the temperature of storage platform self gradually.

Preferably, the outer wall one side fixed mounting of assembly shell has reinforcing plate B, reinforcing plate B's exterior wall welded connection has the diaphragm, the inside fixed mounting of diaphragm has refrigerating unit, refrigerating unit's the fixed intercommunication of output has a set of air conditioning pipeline, and is a set of air conditioning pipeline's exhaust end links to each other the intercommunication with the admission joint respectively, sets up air conditioning pipeline for to the transport of air conditioning, can with produced air conditioning in refrigerating unit, continuously follow the admission joint and input into in the condenser pipe.

Preferably, the fixed intercommunication in exterior wall one side of assembly shell has hollow shell, the discharge end fixed mounting of hollow shell has the ejection of compact to connect, the fixed intercommunication in top of hollow shell has charge-in pipeline, the inside of hollow shell is fixed to be inserted and is equipped with a set of electric telescopic handle B, and is a set of fixed cover is equipped with the push pedal between electric telescopic handle B's the output, sets up electric telescopic handle B, provides power support for the removal of push pedal, can push into the inside of assembly shell with the dyestuff of arranging in hollow shell is automatic to avoid human and dyestuff contact.

Preferably, two the equal fixed mounting in the inner wall bottom of assembly shell in bottom of support frame, the bottom fixed mounting of top cap has two tracks, the equal fixed mounting in outer wall both sides of wiring board has T type slider, two orbital inside is arranged in respectively to the outward appearance wall activity of T type slider, confirms the connection relation between support frame and the device is whole, utilizes the swing joint nature between track and T type slider, and what produce when can offsetting the wiring board motion rocks, improves the stability when infrared spot lamp light moves.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, by arranging the oscillation generating mechanism, after the dye to be tested is accumulated on the top of the storage platform, the driving part in the mechanism is started to drive the metal elastic sheets in the extension plate and rotate in the outer connecting ring, after the surfaces of the metal elastic sheets are contacted with the fillet stop blocks, under the power continuously generated by the servo motor, the contact parts of the metal elastic sheets and the fillet stop blocks generate stronger pressure, the fillet stop blocks are fixed and enter each metal elastic sheet to generate larger deformation, after each metal elastic sheet is separated from one fillet stop block, the metal elastic sheets are quickly reset by utilizing the characteristics of the material, the distance between each fillet stop block is shorter, and further, in the resetting process, the generated elastic force can flap the surfaces of the metal elastic sheets on the surface of the other fillet stop block, the metal elastic sheets do reciprocating motion to generate continuous oscillation towards the inside of the storage platform and gradually diffuse to the top of the storage platform, the dye mostly exists in a powder state, the self mass is smaller, under the action of the oscillation, the effect of material diffusion is realized, the dye can be fully applied to each storage platform, the principle of mechanical transmission, the dye can be continuously released, the dye can be gradually utilized, the dye quality of the dye can be tested, and the dye can be more accurately tested in the later stage, and the dye can be more accurately and the dye can be effectively utilized.

Drawings

FIG. 1 is a perspective view of a front view structure of an infrared sensitizing dye photothermal conversion test apparatus according to the present invention;

FIG. 2 is an enlarged perspective view of the internal structure of the housing assembled in the device for testing photothermal conversion of an infrared sensitizing dye in accordance with the present invention;

FIG. 3 is an enlarged perspective view of a structure of a shock generating mechanism in the infrared sensitizing dye photothermal conversion testing device of the present invention;

FIG. 4 is an enlarged perspective view of a portion of the structure of an infrared sensitizing dye photothermal conversion test device of the present invention;

FIG. 5 is an enlarged perspective view of a data feedback mechanism in an infrared sensitizing dye photothermal conversion test apparatus according to the present invention;

FIG. 6 is an enlarged perspective view of a cold air conveying mechanism in an infrared sensitizing dye photothermal conversion testing device of the present invention;

FIG. 7 is an enlarged perspective view of the structure at A in FIG. 3 of the apparatus for testing photothermal conversion of an infrared sensitizing dye in accordance with the present invention;

fig. 8 is an enlarged perspective view of a structure at a position B in fig. 2 of the infrared sensitizing dye photothermal conversion testing apparatus of the present invention.

In the figure:

1. assembling the shell;

2. a vibration generating mechanism; 201. a support frame; 202. a placement platform; 203. an external connection ring; 204. a fillet stop block; 205. a tray; 206. a metal rod; 207. a connecting lantern ring; 208. a servo motor; 209. a limiting sleeve; 210. a transmission rod; 211. a tap; 212. an extension plate; 213. externally slotting; 214. a reinforcing block; 215. a metal spring sheet; 216. an edge;

3. a top cover;

4. a data feedback mechanism; 401. a grafting plate; 402. an electric telescopic rod A; 403. a wiring board; 404. mounting a hole A; 405. an infrared spot lamp; 406. mounting a hole B; 407. an optical imaging objective lens; 408. a reinforcing plate A; 409. an L-shaped frame; 410. an inner connecting rod; 411. an infrared imager; 412. a display screen; 413. a connection socket; 414. an information line;

5. a hollow shell;

6. a cold air conveying mechanism; 601. positioning a plate; 602. a condenser tube; 603. an air inlet joint; 604. a reinforcing plate B; 605. a transverse plate; 606. a refrigeration unit; 607. a cold air delivery duct;

7. a discharge joint;

8. a feed conduit;

9. an electric telescopic rod B;

10. pushing the plate;

11. a track;

12. t-shaped sliding blocks.

Detailed Description

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 only a part of the embodiments of the present invention, and not all embodiments. 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.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides an infrared sensitization dyestuff light and heat conversion testing arrangement, is provided with to vibrate and takes place mechanism 2 including assembling shell 1 and top cap 3 in the inside of assembling shell 1, and the top of assembling shell 1 is provided with data feedback mechanism 4, and the inside of vibrating and taking place mechanism 2 includes air conditioning conveying mechanism 6.

As shown in fig. 2-3 and 7, the oscillation generating mechanism 2 includes two supporting frames 201, a platform 202 is fixedly installed between the tops of the two supporting frames 201, an external ring 203 is fixedly installed at the bottom of the platform 202, a set of fillet stoppers 204 is fixedly installed on the inner surface wall of the external ring 203, a tray 205 is fixedly installed at the bottom of the inner wall of the assembly housing 1, a set of metal rods 206 is fixedly inserted at the top of the tray 205, a connecting collar 207 is fixedly installed between the outer surfaces of the set of metal rods 206, a servo motor 208 is fixedly inserted on the inner surface wall of the connecting collar 207, a transmission rod 210 is fixedly connected to the output end of the servo motor 208, a tap 211 is fixedly installed at the top of the transmission rod 210, a set of extension plates 212 is fixedly inserted on the outer surface wall of the tap 211, and the number of the set of extension plates 212 is equal to the fillet stoppers 204, an outer slot 213 is opened on the outer surface wall of each of the set of extension plates 212, a reinforcing block 214 is fixedly installed inside each outer slot 213 through a screw, a set of reinforcing block 214 is welded on the outer surface wall of the set of the reinforcing block 214, an edge 216 is fixedly installed on the top of the platform 202,

according to the structure shown in fig. 3, a limiting sleeve 209 is fixedly mounted at the top of the servo motor 208, the outer wall of the transmission rod 210 is movably arranged inside the limiting sleeve 209, and the limiting sleeve 209 is arranged, so that the left-right swinging amplitude generated when the transmission rod 210 rotates is effectively limited, and the stability of the servo motor 208 during the manufacturing process is improved.

According to fig. 1 and 5, the data feedback mechanism 4 comprises a grafting plate 401, the top of the grafting plate 401 is fixedly installed at the top of the top cover 3, a group of electric telescopic rods a402 is fixedly inserted in the grafting plate 401, a wiring board 403 is fixedly sleeved between the output ends of the group of electric telescopic rods a402, and by arranging the electric telescopic rods a402, power support can be provided for the transverse movement of the wiring board 403, so that infrared light emitted by the infrared ray lamp 405 can uniformly irradiate on each part of dye.

According to fig. 5, a set of mounting holes a404 is formed in the bottom of the wiring board 403, the infrared spot lamps 405 are fixedly connected inside the set of mounting holes a404, the mounting holes B406 are formed in the bottom of the wiring board 403, the optical imaging objective 407 is fixedly connected inside the mounting holes B406, and by arranging the optical imaging objective 407, heat radiation generated by each part of dye can be acquired, so that conditions are provided for judging the performance of the dye in the later period.

According to fig. 1, a reinforcing plate a408 is fixedly installed on the outer wall of the assembly housing 1, an L-shaped frame 409 is welded on the outer wall of the reinforcing plate a408, a group of extension rods 410 are fixedly inserted in the L-shaped frame 409, an infrared imager 411 is fixedly sleeved on the outer wall of the group of extension rods 410, a display screen 412 is arranged in the infrared imager 411, and the infrared imager 411 is arranged to receive an electric signal fed back by an optical imaging objective 407 and process the electric signal step by step, so that a heat radiation range is converted into a visible image for an operator to view.

According to fig. 1, the outer wall of the assembly housing 1 is provided with a wiring socket 413, a group of information wires 414 is fixedly connected to the inside of the wiring socket 413, the output ends of the group of information wires 414 are all connected with the terminal of the infrared imager 411, and by arranging the information wires 414, information acquired by the optical imaging objective 407 can be rapidly input into the infrared imager 411 through the internal wiring of the device and the information wires 414, so as to provide conditions for signal transmission.

According to fig. 2 and 6, cold air conveying mechanism 6 includes a set of locating plate 601, the equal fixed mounting in the inner wall bottom of storing platform 202 in bottom of a set of locating plate 601, fixed the inserting is equipped with condenser pipe 602 between the exterior wall of a set of locating plate 601, storing platform 202's outer wall one side is provided with a set of air inlet joint 603, and the exhaust end of a set of air inlet joint 603 all runs through the exterior wall of condenser pipe 602, and be linked together with the inside of condenser pipe 602, through setting up condenser pipe 602, sustainable cold air that produces in receiving refrigeration unit 606, and the diffusion through surperficial cold air, influence storing platform 202 self's temperature gradually.

According to fig. 2 and fig. 6, a reinforcing plate B604 is fixedly installed on one side of the outer wall of the assembly housing 1, a transverse plate 605 is welded on the outer wall of the reinforcing plate B604, a refrigeration unit 606 is fixedly installed inside the transverse plate 605, a group of cold air conveying pipelines 607 is fixedly communicated with the output end of the refrigeration unit 606, the exhaust ends of the group of cold air conveying pipelines 607 are respectively connected and communicated with the air inlet connector 603, and the cold air conveying pipelines 607 are used for conveying cold air, so that the cold air generated in the refrigeration unit 606 can be continuously input into the condenser pipe 602 from the air inlet connector 603.

According to fig. 1-2 and 8, the outer wall of the assembly housing 1 is fixedly communicated with a hollow shell 5 on one side, the discharge end of the hollow shell 5 is fixedly provided with a discharge connector 7, the top of the hollow shell 5 is fixedly communicated with a feed pipeline 8, the hollow shell 5 is fixedly inserted with a group of electric telescopic rods B9, a push plate 10 is fixedly sleeved between the output ends of the group of electric telescopic rods B9, through the arrangement of the electric telescopic rods B9, power support is provided for the movement of the push plate 10, and dyes placed in the hollow shell 5 can be automatically pushed into the assembly housing 1 to avoid the contact of the human body and the dyes.

According to the drawings of fig. 1-2 and fig. 5, the bottoms of two support frames 201 are fixedly arranged at the bottom of the inner wall of the assembly housing 1, two rails 11 are fixedly arranged at the bottom of the top cover 3, T-shaped sliders 12 are fixedly arranged on two sides of the outer wall of the wiring board 403, the outer walls of the two T-shaped sliders 12 are movably arranged in the rails 11 respectively, the connection relation between the support frames 201 and the whole device is determined, and the shaking generated when the wiring board 403 moves can be counteracted by utilizing the movable connection between the rails 11 and the T-shaped sliders 12, so that the stability of the infrared spot lamp 405 during light movement is improved.

The effect that its whole mechanism reached does: firstly, the device is moved to a designated work area and is connected with an external power supply, dye to be tested is continuously poured into the hollow shell 5 from the feed pipeline 8, then the electric telescopic rod B9 in the hollow shell 5 is opened, the push plate 10 is driven at a constant speed to move towards the inside of the assembly shell 1, the dye placed in the hollow shell 5 is pushed into the inside of the assembly shell 1, and when the dye reaches the edge of the discharge connector 7, the dye continuously descends to the surface of the object placing platform 202 under the action of gravity.

At this time, the servo motor 208 in the connection collar 207 is started, and acts on the transmission rod 210 and the tap 211 to drive the metal elastic pieces 215 connected with the extension plate 212 to rotate in the external connection ring 203, after the surfaces of the metal elastic pieces 215 are in contact with the fillet stops 204, and under the power continuously generated by the servo motor 208, a strong pressure is generated at the contact positions of the metal elastic pieces and the fillet stops 203, because the fillet stops 204 are fixed, each metal elastic piece 215 enters into one fillet stop 204 to generate a large deformation, after each metal elastic piece 215 is separated from one fillet stop 204, the metal elastic pieces are quickly reset by using the characteristics of the material of the metal elastic pieces, because the distance between the fillet stops 204 is short, in the resetting process of the metal elastic pieces 215, the generated elastic force can beat the surfaces of the metal elastic pieces on the surfaces of the other fillet stops 204, the reciprocating motion of the metal elastic pieces 215 can continuously vibrate the inside of the object platform 202 and gradually diffuse to the top of the object platform 202, the dye mostly exists in a powdery state, and the dye can be continuously diffused to the corners of the object platform 202 under the vibration effect, and the dye is finally dispersed to avoid the dye pile of the dye.

After the dyes are laid, the infrared spot lamp 405 in the mounting hole a404 is started, a plurality of groups of infrared light beams are rapidly generated at the bottom of the assembly housing 1, the electric telescopic rod a402 in the grafting plate 401 is simultaneously started and acts on the wiring plate 403, the infrared spot lamp 405 is driven to transversely move at a constant speed, each dye on the object placing platform 202 can absorb equal radiation energy, heat released by each part of dye in the process is captured by the optical imaging objective 407 moving with the infrared spot lamp 405, the obtained radiation energy is rapidly transmitted and reflected by a flat cable inside the device and an information wire 414 in the form of an electric signal through the optical imaging objective 407 and fed back into the infrared imager 411, at the moment, the radiation energy is amplified by the infrared imager 411 and is converted into a standard video signal, an infrared thermal image of the batch of dyes is displayed through the display screen 412, and an operator can judge the performance of the batch of dyes according to the distribution intensity of the heat source.

When the dye needs to be used in a low-temperature environment, the refrigerating unit 606 in the transverse plate 605 is opened, the generated cold air is continuously input into the interior of the condensation pipe 602 through the cold air conveying pipeline 607, the cold air is gradually diffused into the interior of the storage platform 202 from the surface of the condensation pipe 602 along with the continuous injection of the cold air, and finally the cold air permeates into the top of the storage platform 202 to cool the dye laid on the storage platform, and the dye in a low-temperature state is tested by the method.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an infrared sensitization dyestuff light and heat conversion testing arrangement which characterized in that: the device comprises an assembly shell (1) and a top cover (3), wherein a vibration generating mechanism (2) is arranged in the assembly shell (1), a data feedback mechanism (4) is arranged at the top of the assembly shell (1), and a cold air conveying mechanism (6) is arranged in the vibration generating mechanism (2);

the oscillation generating mechanism (2) comprises two supporting frames (201), a storage platform (202) is fixedly arranged between the tops of the two supporting frames (201), an external ring (203) is fixedly arranged at the bottom of the object placing platform (202), a group of fillet stoppers (204) are fixedly arranged on the inner surface wall of the external ring (203), a tray (205) is fixedly arranged at the bottom of the inner wall of the assembly shell (1), a group of metal rods (206) are fixedly inserted at the top of the tray (205), a connecting lantern ring (207) is fixedly sleeved between the outer surface walls of the group of metal rods (206), a servo motor (208) is fixedly inserted into the inner surface wall of the connecting lantern ring (207), the output end of the servo motor (208) is fixedly connected with a transmission rod (210), the top of the transmission rod (210) is fixedly provided with a tap (211), a group of extension plates (212) are fixedly inserted into the outer wall of the tap (211), the number of the group of extension plates (212) is equal to that of the fillet stop blocks (204), an outer open groove (213) is formed in the outer surface wall of each of the group of extension plates (212), a reinforcing block (214) is fixedly mounted inside each outer open groove (213) through screws, a metal elastic sheet (215) is welded on the outer surface wall of each group of reinforcing blocks (214), the top of the object placing platform (202) is fixedly provided with an edge (216).

2. The infrared sensitizing dye photothermal conversion test device of claim 1, wherein: the top of the servo motor (208) is fixedly provided with a limiting sleeve (209), and the outer wall of the transmission rod (210) is movably arranged in the limiting sleeve (209).

3. The infrared sensitizing dye photothermal conversion test device of claim 1, wherein: the data feedback mechanism (4) comprises a grafting plate (401), the top of the grafting plate (401) is fixedly installed at the top of the top cover (3), a group of electric telescopic rods A (402) are fixedly inserted into the interior of the grafting plate (401), and a wiring board (403) is fixedly arranged between the output ends of the electric telescopic rods A (402).

4. The infrared sensitizing dye photothermal conversion test device of claim 3, wherein: a set of installation hole A (404), a set of have been seted up to the bottom of wiring board (403) the equal fixedly connected with infrared shot-light (405) in inside of installation hole A (404), installation hole B (406) have been seted up to the bottom of wiring board (403), the inside fixedly connected with optical imaging objective (407) of installation hole B (406).

5. The infrared sensitizing dye photothermal conversion test device of claim 1, wherein: the utility model discloses an assembly shell, including assembly shell (1), the outward appearance wall fixed mounting of assembly shell (1) has reinforcing plate A (408), the outward appearance wall welding of reinforcing plate A (408) has L type frame (409), the inside of L type frame (409) is fixed to be inserted and is equipped with a set of internal rod (410), and is a set of the outward appearance wall fixed cover of internal rod (410) is equipped with infrared imager (411), the inside of infrared imager (411) is provided with display screen (412).

6. The infrared sensitizing dye photothermal conversion test device of claim 5, wherein: the exterior wall of the assembly shell (1) is provided with a wiring socket (413), the inside fixedly connected with of the wiring socket (413) is provided with a group of information lines (414), and the output end of the information lines (414) is connected with the wiring end of the infrared imager (411).

7. The infrared sensitizing dye photothermal conversion test device of claim 1, wherein: air conditioning conveying mechanism (6) are including a set of locating plate (601), and are a set of the equal fixed mounting in the inner wall bottom of storing platform (202) in bottom of locating plate (601) is a set of fixed the inserting is equipped with condenser pipe (602) between the exterior wall of locating plate (601), the outer wall one side of storing platform (202) is provided with a set of air inlet joint (603), and the exhaust end of a set of air inlet joint (603) all runs through the exterior wall of condenser pipe (602) to be linked together with the inside of condenser pipe (602).

8. The infrared sensitizing dye photothermal conversion test device of claim 7, wherein: the air-conditioning unit is characterized in that a reinforcing plate B (604) is fixedly mounted on one side of the outer wall of the assembling shell (1), a transverse plate (605) is welded on the outer wall of the reinforcing plate B (604), a refrigerating unit (606) is fixedly mounted inside the transverse plate (605), the output end of the refrigerating unit (606) is fixedly communicated with a group of air-conditioning conveying pipelines (607), and the exhaust ends of the air-conditioning conveying pipelines (607) are respectively communicated with an air inlet connector (603).

9. The infrared sensitizing dye photothermal conversion test device of claim 1, wherein: the assembly device is characterized in that a hollow shell (5) is fixedly communicated with one side of the outer surface wall of the assembly shell (1), a discharge connector (7) is fixedly mounted at the discharge end of the hollow shell (5), a feed pipeline (8) is fixedly communicated with the top of the hollow shell (5), a set of electric telescopic rod B (9) is fixedly inserted in the hollow shell (5), and a push plate (10) is fixedly arranged between the output ends of the electric telescopic rod B (9).

10. The infrared sensitizing dye photothermal conversion test device of claim 3, wherein: two the equal fixed mounting in inner wall bottom of assembly shell (1) in bottom of support frame (201), the bottom fixed mounting of top cap (3) has two tracks (11), the equal fixed mounting in outer wall both sides of wiring board (403) has T type slider (12), two the inside of track (11) is arranged in respectively in the activity of the exterior wall of T type slider (12).

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