CN115069157A - Preparation device and process of air conditioner radiator cleaning agent - Google Patents

Abstract

The invention relates to the field of cleaning agents, in particular to a preparation device and a preparation process of a cleaning agent for an air conditioner radiator. The technical problem of the invention is as follows: the state change needs to be observed manually in the raw material mixing process, and the state change of the mixed liquid cannot be known in time, so that the working progress is prolonged. The technical scheme of the invention is as follows: a preparation device of a cleaning agent for an air conditioner radiator comprises a supporting underframe, a first mixing tank and the like; the number of the supporting bottom frames is two, and the two supporting bottom frames are distributed in the front and back direction; a first mixing tank is arranged on the left part between the two supporting underframe. According to the invention, the first connecting shaft is linked with the transmission wheel, so that the liquid feeding rod continuously feeds the mixed liquid out for observation, and the observed mixed liquid flows back to the first mixing tank, the mixed liquid in the first mixing tank is continuously observed and detected in the stirring process, and meanwhile, after the mixed liquid is in a clarified state, the mixed liquid is timely known and fed into the next working flow, and the working progress is accelerated.

Description

Preparation device and process of air conditioner radiator cleaning agent

Technical Field

The invention relates to the field of cleaning agents, in particular to a preparation device and a preparation process of a cleaning agent for an air conditioner radiator.

Background

The existing air conditioner radiator cleaning agent is prepared from anhydrous ethanol, glacial acetic acid, sodium dodecyl sulfate and coconut oil fatty acid diethanolamide, the anhydrous ethanol and the glacial acetic acid need to react firstly, in the reaction process of the anhydrous ethanol and the glacial acetic acid, the reaction is inhibited due to the heat release of the reaction, the released heat is not discharged, then after the lauryl sodium dodecyl sulfate and the coconut oil fatty acid diethanolamide are added, the four raw materials are required to be mixed into a clear liquid, the state change needs to be observed manually in the mixing process, the inconvenience is high, the workload of workers is increased, the state change of the mixed liquid cannot be known timely, the working progress is prolonged, and the original mode of adding water into the mixed liquid after stirring can cause the generation of a large amount of foams in the mixed liquid and is not beneficial to discharging of the mixed liquid.

Disclosure of Invention

The invention provides a preparation device and a preparation process of a cleaning agent for an air conditioner radiator, aiming at overcoming the defects that the condition change needs to be observed manually in the raw material mixing process, the inconvenience is high, the workload of workers is increased, the condition change of mixed liquid cannot be known in time, the work progress is prolonged, and a large amount of foam is generated in the mixed liquid due to the original mode of adding water into the mixed liquid after stirring.

The technical scheme of the invention is as follows: a preparation device of a cleaning agent for an air conditioner radiator comprises a supporting underframe and a first mixing tank; the number of the supporting bottom frames is two, and the two supporting bottom frames are distributed in the front and back direction; a first mixing tank is arranged at the left part between the two supporting bottom frames; the device also comprises a mixing unit, a detection unit, a water adding unit, a driving wheel, a pushing wheel and a liquid feeding rod; the upper part of the first material mixing tank is connected with a mixing unit; the lower part of the first mixing tank is connected with a detection unit; a water adding unit is connected to the right part between the two supporting underframe; the water adding unit is connected with the first mixing tank; the detection unit is connected with a transmission wheel; the outer ring surface of the driving wheel is connected with a pushing wheel in a transmission way; the front part of the pushing wheel is connected with a liquid feeding rod in a transmission way, and the front part of the liquid feeding rod is provided with a feeding groove; the liquid feeding rod is connected with the detection unit.

More preferably, the center of rotation of the drive wheel is offset from the axis of the drive wheel.

More preferably, the left upper part of the outer wall of the first mixing tank is communicated with a first feeding pipe; the right upper part of the outer wall of the first mixing tank is communicated with a second feeding pipe; the lower right part of the outer wall of the first mixing tank is communicated with a discharge pipe; a first electromagnetic valve is arranged on the discharge pipe; the first electromagnetic valve is used for controlling the on-off of the discharge pipe.

More preferably, the mixing unit comprises a first mixing frame, a second mixing frame, a first heat exchange disc, a second heat exchange disc, a branched air inlet pipe and a branched air outlet pipe; the upper part of the inner wall of the first material mixing tank is fixedly connected with a first material mixing frame; the upper part of the inner wall of the first material mixing tank is fixedly connected with a second material mixing frame; the first material mixing frame is attached to the second material mixing frame; the middle part of the inner wall of the first mixing tank is fixedly connected with a first heat exchange disc; the middle part of the inner wall of the first mixing tank is fixedly connected with a second heat exchange plate, and the second heat exchange plate is positioned below the first heat exchange plate; a branched air inlet pipe penetrates through the middle part of the side wall of the first mixing tank, and the first mixing tank is fixedly connected with the branched air inlet pipe; the branched air inlet pipe is communicated with the first heat exchange disc; the branched air inlet pipe is communicated with the second heat exchange disc; a branched air outlet pipe penetrates through the middle part of the side wall of the first mixing tank, and the first mixing tank is fixedly connected with the branched air outlet pipe; the branched air inlet pipe and the branched air outlet pipe are arranged in bilateral symmetry; the branched air outlet pipe is communicated with the first heat exchange plate; the branched air outlet pipe is communicated with the second heat exchange plate.

More preferably, be equipped with the first orifice plate portion of a plurality of in the first compounding frame, be equipped with a plurality of second orifice plate portion in the second compounding frame, the first orifice plate portion of a plurality of and a plurality of second orifice plate portion are crisscross distribution.

More preferably, the detection unit comprises a first motor, a first connecting shaft, a first stirring impeller, a second stirring impeller, a feeding pipe, a material blocking block, an observation pipe, a fixing rod, a spring, a current limiting ball, a mounting seat, a laser transmitter and a laser receiver; a first motor is fixedly connected to the lower side of the outer wall of the first mixing tank; the bottom wall of the first material mixing tank is rotatably connected with a first connecting shaft; the output shaft of the first motor is fixedly connected with the first connecting shaft; the first connecting shaft is fixedly connected with a first stirring impeller; the first connecting shaft is fixedly connected with a second stirring impeller; the first stirring impeller is positioned below the second stirring impeller; the first connecting shaft is fixedly connected with the driving wheel; the driving wheel is positioned between the first stirring impeller and the second stirring impeller; a feeding pipe penetrates through the side wall of the first mixing tank, and the first mixing tank is fixedly connected with the feeding pipe; the feeding pipe is connected with the liquid feeding rod in a sliding way; the inner wall of the feeding pipe is fixedly connected with a material blocking block; the material blocking block is equal to the feeding groove in height; the front part of the side wall of the first mixing tank is fixedly connected with an observation pipe, and the upper end of the observation pipe is communicated with the first mixing tank; the lower end of the observation pipe is communicated with the feeding pipe; the lower part of the observation tube is fixedly connected with a fixed rod; the rear side of the fixed rod is fixedly connected with a spring; the rear side of the spring is fixedly connected with a current-limiting ball; the front part of the outer wall of the first mixing tank is fixedly connected with a mounting seat; a laser emitter is arranged on the left part of the front side of the mounting seat; the right part of the front side of the mounting seat is provided with a laser receiver.

More preferably, the inner wall of the feeding pipe is provided with a bulge, and the diameter of a channel in the middle of the bulge is smaller than that of the flow limiting ball.

More preferably, the observation tube is provided with an observation part at the front side thereof, the observation part is transparent, and the laser transmitter and the laser receiver are respectively located at both sides of the observation part.

More preferably, the water adding unit comprises a second mixing tank, a second electromagnetic valve, a second motor, a second connecting shaft, a third stirring impeller, a fourth stirring impeller, a liquid guide pipe, a liquid inlet pipe and a liquid filler; a second mixing tank is arranged at the right part between the two supporting underframe; a second electromagnetic valve is arranged at an opening of the side wall of the second mixing tank; a second motor is fixedly connected to the lower side of the outer wall of the second mixing tank; the bottom wall of the second mixing tank is rotationally connected with a second connecting shaft; the output shaft of the second motor is fixedly connected with the second connecting shaft; a third stirring impeller is fixedly connected to the second connecting shaft; a fourth stirring impeller is fixedly connected to the second connecting shaft; the fourth stirring impeller is positioned above the third stirring impeller; a liquid guide pipe is fixedly connected to the outer wall of the second material mixing tank; the front part of the liquid guide pipe is communicated with a liquid inlet pipe; the inner ring surface of the liquid guide pipe is communicated with four liquid feeders in annular array; four liquid feeders penetrate into the first mixing tank.

A preparation process of a cleaning agent for an air conditioner radiator comprises the following working steps:

the method comprises the following steps: adding absolute ethyl alcohol from a first feeding pipe, adding glacial acetic acid from a second feeding pipe, and mixing and reacting the absolute ethyl alcohol and the glacial acetic acid in a first mixing tank;

step two: after the reaction is finished, adding sodium dodecyl sulfate and coconut oil fatty acid diethanolamide through a first feeding pipe, and continuously stirring and mixing in a first mixing tank;

step three: detecting the clarifying state of the mixed solution obtained in the second step by a detection unit, and feeding the mixed solution into a water adding unit after the mixed solution is changed into the clarifying state;

step four: after the mixed solution enters the water adding unit, adding water into the mixed solution through the water adding unit;

step five: and mixing the mixed solution with water, discharging and collecting.

Has the advantages that: according to the invention, the first connecting shaft is linked with the transmission wheel, so that the liquid feeding rod continuously feeds the mixed liquid out for observation, and the observed mixed liquid flows back to the first mixing tank, the mixed liquid in the first mixing tank is continuously observed and detected in the stirring process, manual observation is not needed, the workload is reduced, and meanwhile, after the mixed liquid is in a clear state, the mixed liquid is timely known and fed into the next working flow, so that the working progress is accelerated;

add water in to the second compounding jar through the liquid feeder on the catheter, add water in the mixed liquid, replace the mode that original aquatic added mixed liquid to reach the effect that reduces the production of foam in the mixed liquid.

Drawings

FIG. 1 shows a schematic perspective view of a device for preparing a cleaning agent for an air conditioner radiator according to the present invention;

FIG. 2 is a schematic partial perspective view of the cleaning agent preparation apparatus for air conditioners and radiators according to the present invention;

FIG. 3 shows a first sectional view of a part of a device for preparing a cleaning agent for an air conditioner radiator according to the present invention;

fig. 4 shows a schematic combined three-dimensional structure of a first mixing frame and a second mixing frame according to the present invention;

fig. 5 shows a combined exploded view of a first and second blender frame of the present invention;

FIG. 6 is a second sectional view of a part of the cleaning agent preparation device for the radiator of the air conditioner;

FIG. 7 is a schematic perspective view of the detecting unit of the present invention;

FIG. 8 shows a first partial perspective view of the detection unit of the present invention;

FIG. 9 is a schematic view of a second partial perspective view of the detecting unit of the present invention;

FIG. 10 is a schematic perspective view of the water adding unit of the present invention;

fig. 11 shows a cross-sectional view of the water addition unit of the present invention.

Labeled as: 1-a supporting chassis, 2-a first mixing tank, 21-a first feeding pipe, 22-a second feeding pipe, 23-a discharging pipe, 24-a first electromagnetic valve, 201-a first mixing frame, 202-a second mixing frame, 203-a first heat exchange disc, 204-a second heat exchange disc, 205-a branched air inlet pipe, 206-a branched air outlet pipe, 301-a first motor, 302-a first connecting shaft, 303-a first stirring impeller, 304-a second stirring impeller, 305-a driving wheel, 306-a driving wheel, 307-a liquid feeding rod, 308-a feeding pipe, 309-a material blocking block, 310-a laser emitter, 311-a fixed rod, 312-a spring, 313-a current limiting ball, 314-a mounting seat, 315-a laser emitter, 316-a laser receiver, 401-a second mixing tank, 402-a second electromagnetic valve, 403-a second motor, 404-a second connecting shaft, 405-a third stirring impeller, 406-a fourth stirring impeller, 407-a liquid guide pipe, 408-a liquid inlet pipe, 409-a liquid filler, 201 a-a first orifice plate part, 202 a-a second orifice plate part, 307 a-a feeding groove, 308 a-a bulge part and 310 a-an observation part.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Examples

A preparation device of cleaning agent for air conditioner radiator is shown in figure 1-11, and comprises a supporting base frame 1 and a first mixing tank 2; two supporting bottom frames 1 are arranged, and the two supporting bottom frames 1 are distributed in the front-back direction; a first mixing tank 2 is arranged at the left part between the two supporting underframe 1;

also comprises a mixing unit, a detection unit, a water adding unit, a driving wheel 305, a pushing wheel 306 and a liquid feeding rod 307; the upper part of the first material mixing tank 2 is connected with a mixing unit; the lower part of the first mixing tank 2 is connected with a detection unit; a water adding unit is connected between the two supporting underframe 1 at the right part; the water adding unit is connected with the first mixing tank 2; the detection unit is connected with a transmission wheel 305; the outer ring surface of the driving wheel 305 is connected with a pushing wheel 306 in a driving way; the front part of the pushing wheel 306 is connected with a liquid feeding rod 307 in a transmission way, and the front part of the liquid feeding rod 307 is provided with a feeding groove 307 a; the liquid feed rod 307 is connected to the detection unit.

The center of rotation of the transmission wheel 305 is offset from the axial center of the transmission wheel 305.

A first feeding pipe 21 is communicated with the left upper part of the outer wall of the first mixing tank 2; the right upper part of the outer wall of the first mixing tank 2 is communicated with a second feeding pipe 22; the right lower part of the outer wall of the first material mixing tank 2 is communicated with a material outlet pipe 23; the discharge pipe 23 is provided with a first solenoid valve 24.

The mixing unit comprises a first mixing frame 201, a second mixing frame 202, a first heat exchange disc 203, a second heat exchange disc 204, a branched air inlet pipe 205 and a branched air outlet pipe 206; a first material mixing frame 201 is welded on the upper part of the inner wall of the first material mixing tank 2; a second material mixing frame 202 is welded on the upper part of the inner wall of the first material mixing tank 2; the first mixing frame 201 is attached to the second mixing frame 202; a first heat exchange disc 203 is welded in the middle of the inner wall of the first mixing tank 2; the middle part of the inner wall of the first mixing tank 2 is welded with a second heat exchange disc 204, and the second heat exchange disc 204 is positioned below the first heat exchange disc 203; a branched air inlet pipe 205 penetrates through the middle part of the side wall of the first mixing tank 2, and the first mixing tank 2 is fixedly connected with the branched air inlet pipe 205; the bifurcated intake pipe 205 communicates with the first heat exchange disk 203; the bifurcated intake pipe 205 is communicated with the second heat exchange disc 204; a branched air outlet pipe 206 penetrates through the middle part of the side wall of the first mixing tank 2, and the first mixing tank 2 is fixedly connected with the branched air outlet pipe 206; the branched inlet pipe 205 and the branched outlet pipe 206 are arranged in bilateral symmetry; the branched outlet pipe 206 is communicated with the first heat exchange plate 203; the bifurcated outlet tube 206 is in communication with the second heat exchange disc 204.

Be equipped with a plurality of first orifice board portion 201a in the first frame 201, be equipped with a plurality of second orifice board portion 202a in the second frame 202, a plurality of first orifice board portion 201a and a plurality of second orifice board portion 202a are crisscross distribution.

The detection unit comprises a first motor 301, a first connecting shaft 302, a first stirring impeller 303, a second stirring impeller 304, a feeding pipe 308, a material blocking block 309, an observation pipe 310, a fixing rod 311, a spring 312, a current limiting ball 313, a mounting seat 314, a laser transmitter 315 and a laser receiver 316; a first motor 301 is connected to the lower side of the outer wall of the first mixing tank 2 through bolts; the bottom wall of the first mixing tank 2 is rotatably connected with a first connecting shaft 302; an output shaft of the first motor 301 is fixedly connected with the first connecting shaft 302; a first stirring impeller 303 is fixedly connected to the first connecting shaft 302; a second stirring impeller 304 is fixedly connected to the first connecting shaft 302; the first stirring impeller 303 is located below the second stirring impeller 304; the first connecting shaft 302 is fixedly connected with a driving wheel 305; the transmission wheel 305 is positioned between the first stirring impeller 303 and the second stirring impeller 304; a feeding pipe 308 penetrates through the side wall of the first mixing tank 2, and the first mixing tank 2 is fixedly connected with the feeding pipe 308; the feeding pipe 308 is connected with the liquid feeding rod 307 in a sliding way; the inner wall of the feeding pipe 308 is welded with a material blocking block 309; the material stop block 309 is equal to the material feeding groove 307a in height; the front part of the side wall of the first mixing tank 2 is fixedly connected with an observation pipe 310, and the upper end of the observation pipe 310 is communicated with the first mixing tank 2; the lower end of the observation tube 310 is communicated with the feeding tube 308; a fixed rod 311 is fixedly connected to the lower part of the observation tube 310; a spring 312 is fixedly connected to the rear side of the fixing rod 311; the rear side of the spring 312 is fixedly connected with a current-limiting ball 313; the front part of the outer wall of the first mixing tank 2 is fixedly connected with a mounting seat 314; a laser emitter 315 is arranged at the left part of the front side of the mounting seat 314; the laser receiver 316 is installed at the right part of the front side of the installation seat 314.

The inner wall of the feeding pipe 308 is provided with a convex part 308a, and the diameter of the channel in the middle of the convex part 308a is smaller than that of the flow limiting ball 313.

The observation tube 310 is provided with an observation portion 310a at the front side, the observation portion 310a is transparent, and the laser transmitter 315 and the laser receiver 316 are respectively located at both sides of the observation portion 310 a.

The water adding unit comprises a second mixing tank 401, a second electromagnetic valve 402, a second motor 403, a second connecting shaft 404, a third stirring impeller 405, a fourth stirring impeller 406, a liquid guide pipe 407, a liquid inlet pipe 408 and a liquid filler 409; a second mixing tank 401 is arranged between the two supporting underframe 1 at the right part; a second electromagnetic valve 402 is arranged at an opening on the side wall of the second mixing tank 401; a second motor 403 is connected to the lower side of the outer wall of the second mixing tank 401 through bolts; the bottom wall of the second mixing tank 401 is rotatably connected with a second connecting shaft 404; an output shaft of the second motor 403 is fixedly connected with a second connecting shaft 404; a third stirring impeller 405 is fixedly connected to the second connecting shaft 404; a fourth stirring impeller 406 is fixedly connected to the second connecting shaft 404; the fourth stirring impeller 406 is located above the third stirring impeller 405; a liquid guide pipe 407 is fixedly connected to the outer wall of the second material mixing tank 401; the front part of the liquid guide tube 407 is communicated with a liquid inlet tube 408; the inner ring surface of the liquid guide tube 407 is communicated with four liquid adding devices 409 in annular arrays; four liquid feeders 409 penetrate into the first mixing bowl 2.

When the preparation device of the cleaning agent for the air conditioner radiator is used, absolute ethyl alcohol is added from the first feeding pipe 21, the absolute ethyl alcohol flows out through the holes of the first pore plate part 201a, glacial acetic acid is added from the second feeding pipe 22, and the glacial acetic acid flows out through the holes of the second pore plate part 202a, so that the absolute ethyl alcohol and the glacial acetic acid are mixed between the first mixing frame 201 and the second mixing frame 202, and the plurality of first pore plate parts 201a and the plurality of second pore plate parts 202a are distributed in a staggered manner, so that the absolute ethyl alcohol and the glacial acetic acid are mutually blended and fully reacted;

an external air pump is connected with the branched air inlet pipe 205, air is fed into the branched air inlet pipe 205, flows through the first heat exchange plate 203 and the second heat exchange plate 204 and flows out of the branched air outlet pipe 206, when the reacted absolute ethanol and glacial acetic acid flow down to the first heat exchange plate 203 and the second heat exchange plate 204, the first heat exchange disc 203 and the second heat exchange disc 204 exchange heat with the anhydrous ethanol and the glacial acetic acid in the reaction, so that the problem that the reaction is inhibited from being performed due to overhigh temperature in the reaction process of the anhydrous ethanol and the glacial acetic acid is avoided, the anhydrous ethanol and the glacial acetic acid fall into the bottom of the first mixing tank 2, the first motor 301 is controlled to drive the first connecting shaft 302 to rotate, the first stirring impeller 303 and the second stirring impeller 304 are driven to rotate by the first connecting shaft 302, stirring the reacted absolute ethyl alcohol and glacial acetic acid by a second stirring impeller 304, and scraping the bottom of the first mixing tank 2 by a first stirring impeller 303;

after the reaction is finished, adding sodium dodecyl sulfate and coconut oil fatty acid diethanolamide through the first feeding pipe 21, continuously rotating, stirring and mixing through the first stirring impeller 303 and the second stirring impeller 304, and forming a mixed solution by using anhydrous ethanol and glacial acetic acid reaction liquid and the sodium dodecyl sulfate and coconut oil fatty acid diethanolamide;

and the first connecting shaft 302 drives the driving wheel 305 to rotate, the driving wheel 305 drives the pushing wheel 306, because the rotation center of the driving wheel 305 deviates from the axle center of the driving wheel 305, that is, the driving wheel 305 rotates eccentrically, the driving wheel 305 drives the liquid feeding rod 307 to reciprocate through the pushing wheel 306, so that the liquid feeding rod 307 slides in the feeding pipe 308 in a reciprocating manner, at this time, the mixed liquid is pushed into the feeding pipe 308 through the feeding groove 307a on the liquid feeding rod 307, and when the liquid feeding rod 307 moves to be attached to the feeding pipe 308, the feeding pipe 308 is located at the feeding groove 307a, the liquid feeding rod 307 becomes a piston moving in the feeding pipe 308, the mixed liquid is pushed into the observation pipe 310 by the liquid feeding rod 307, the mixed liquid pushes the flow limiting ball 313 to move to the right, so that the spring 312 is compressed, when the mixed liquid wants to flow back, the flow limiting ball 313 is pushed to be attached to the convex portion 308a, thereby forming a plug, and achieving the effect of preventing the mixed liquid from flowing back, so that the mixed liquid is continuously sent into the observation tube 310 by the reciprocating motion of the liquid sending rod 307, at this time, the laser emitter 315 emits laser and the laser receiver 316 receives the laser, the laser passes through the transparent observation part 310a, the loss amount of the laser is judged by the intensity of the laser received by the laser receiver 316, so as to judge the clear state of the mixed liquid, the mixed liquid continuously entering into the observation tube 310 is overflowed upwards and enters the first mixing tank 2 again from the upper end pipe orifice in the observation tube 310 until the clear state of the mixed liquid in the observation tube 310 is detected, namely the mixed liquid in the first mixing tank 2 is judged to be the clear state, the first connecting shaft 302 is used for linkage with the driving wheel 305, the liquid sending rod 307 continuously sends out the mixed liquid for observation, and the observed mixed liquid flows back into the first mixing tank 2, so as to realize continuous observation and detection of the mixed liquid in the first mixing tank 2 in the stirring process, manual observation is not needed, the workload is reduced, and meanwhile, after the mixed liquid is in a clear state, the mixed liquid is known and sent to the next working flow in time, so that the working progress is accelerated;

after the mixed liquid in the first mixing tank 2 is in a clear state, the first electromagnetic valve 24 is controlled to be opened, so that the mixed liquid in the first mixing tank 2 flows into the second mixing tank 401 through the discharge pipe 23, the liquid inlet pipe 408 is connected with an external water supply device in advance, after the mixed liquid in the first mixing tank 2 flows into the second mixing tank 401, water is fed into the liquid inlet pipe 408 through the external water supply device, the water flows into the liquid guide pipe 407 through the liquid inlet pipe 408, then water is added into the second mixing tank 401 through the liquid filler 409 on the liquid guide pipe 407, the original mode of adding the mixed liquid into water is replaced, so that the effect of reducing the generation of foam in the mixed liquid is achieved, meanwhile, the second motor is controlled to drive the second connecting shaft 404 to rotate at a slow speed, the third stirring impeller 405 and the fourth stirring impeller 406 are driven to rotate through the second connecting shaft 404, and the mixed liquid and the water are stirred and mixed through the third stirring impeller 405 and the fourth stirring impeller 406 at the same time, and scrape the end through third impeller 405 to second mixing bowl 401, prevent that the material from sinking the end in the mixed liquid, after mixing the completion, control second solenoid valve 402 is opened, makes the interior liquid outflow of second mixing bowl 401, and the workman collects it.

A preparation process of a cleaning agent for an air conditioner radiator comprises the following working steps:

the method comprises the following steps: adding absolute ethyl alcohol from a first feeding pipe 21 and glacial acetic acid from a second feeding pipe 22, and mixing and reacting the absolute ethyl alcohol and the glacial acetic acid in a first mixing tank 2;

step two: after the reaction is finished, adding sodium dodecyl sulfate and coconut oil fatty acid diethanolamide through a first feeding pipe 21, and continuously stirring and mixing in a first mixing tank 2;

step three: detecting the clarifying state of the mixed solution obtained in the second step by a detection unit, and feeding the mixed solution into a water adding unit after the mixed solution is changed into the clarifying state;

step four: after the mixed solution enters the water adding unit, adding water into the mixed solution through the water adding unit;

step five: and mixing the mixed solution with water, discharging and collecting.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. A preparation device of an air conditioner radiator cleaning agent comprises a supporting underframe (1) and a first mixing tank (2); two supporting bottom frames (1) are arranged, and the two supporting bottom frames (1) are distributed in the front-back direction; a first mixing tank (2) is arranged at the left part between the two supporting underframe (1);

the method is characterized in that: also comprises a mixing unit, a detection unit, a water adding unit, a driving wheel (305), a pushing wheel (306) and a liquid feeding rod (307); the upper part of the first material mixing tank (2) is connected with a mixing unit; the lower part of the first mixing tank (2) is connected with a detection unit; a water adding unit is connected to the right part between the two supporting underframe (1); the water adding unit is connected with the first mixing tank (2); the detection unit is connected with a transmission wheel (305); the outer ring surface of the driving wheel (305) is connected with a pushing wheel (306) in a transmission way; the front part of the pushing wheel (306) is connected with a liquid feeding rod (307) in a transmission way, and the front part of the liquid feeding rod (307) is provided with a feeding groove (307 a); the liquid feeding rod (307) is connected with the detection unit.

2. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 1, wherein: the rotation center of the driving wheel (305) deviates from the axle center of the driving wheel (305).

3. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 1, wherein: a first feeding pipe (21) is communicated with the left upper part of the outer wall of the first mixing tank (2); a second feeding pipe (22) is communicated with the right upper part of the outer wall of the first mixing tank (2); a discharge pipe (23) is communicated with the right lower part of the outer wall of the first material mixing tank (2); a first electromagnetic valve (24) is arranged on the discharge pipe (23); the first electromagnetic valve (24) is used for controlling the on-off of the discharge pipe (23).

4. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 3, wherein: the mixing unit comprises a first mixing frame (201), a second mixing frame (202), a first heat exchange disc (203), a second heat exchange disc (204), a branched air inlet pipe (205) and a branched air outlet pipe (206); the upper part of the inner wall of the first material mixing tank (2) is fixedly connected with a first material mixing frame (201); the upper part of the inner wall of the first material mixing tank (2) is fixedly connected with a second material mixing frame (202); the first mixing frame (201) is attached to the second mixing frame (202); the middle part of the inner wall of the first mixing tank (2) is fixedly connected with a first heat exchange disc (203); the middle part of the inner wall of the first mixing tank (2) is fixedly connected with a second heat exchange disc (204), and the second heat exchange disc (204) is positioned below the first heat exchange disc (203); a branched air inlet pipe (205) penetrates through the middle part of the side wall of the first mixing tank (2), and the first mixing tank (2) is fixedly connected with the branched air inlet pipe (205); the branched air inlet pipe (205) is communicated with the first heat exchange disc (203); the branched air inlet pipe (205) is communicated with the second heat exchange disc (204); a branched air outlet pipe (206) penetrates through the middle part of the side wall of the first mixing tank (2), and the first mixing tank (2) is fixedly connected with the branched air outlet pipe (206); the branched air inlet pipe (205) and the branched air outlet pipe (206) are arranged in bilateral symmetry; the branched air outlet pipe (206) is communicated with the first heat exchange plate (203); the branched air outlet pipe (206) is communicated with the second heat exchange plate (204).

5. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 4, wherein: be equipped with a plurality of first orifice board portion (201 a) in first mixture frame (201), be equipped with a plurality of second orifice board portion (202 a) in second mixture frame (202), a plurality of first orifice board portion (201 a) and a plurality of second orifice board portion (202 a) are crisscross distribution.

6. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 4, wherein: the detection unit comprises a first motor (301), a first connecting shaft (302), a first stirring impeller (303), a second stirring impeller (304), a feeding pipe (308), a material blocking block (309), an observation pipe (310), a fixing rod (311), a spring (312), a current limiting ball (313), a mounting seat (314), a laser transmitter (315) and a laser receiver (316); a first motor (301) is fixedly connected to the lower side of the outer wall of the first mixing tank (2); the bottom wall of the first mixing tank (2) is rotationally connected with a first connecting shaft (302); an output shaft of the first motor (301) is fixedly connected with the first connecting shaft (302); a first stirring impeller (303) is fixedly connected to the first connecting shaft (302); a second stirring impeller (304) is fixedly connected to the first connecting shaft (302); the first stirring impeller (303) is positioned below the second stirring impeller (304); the first connecting shaft (302) is fixedly connected with the driving wheel (305); the transmission wheel (305) is positioned between the first stirring impeller (303) and the second stirring impeller (304); a feeding pipe (308) penetrates through the side wall of the first mixing tank (2), and the first mixing tank (2) is fixedly connected with the feeding pipe (308); the feeding pipe (308) is connected with the liquid feeding rod (307) in a sliding way; the inner wall of the feeding pipe (308) is fixedly connected with a material blocking block (309); the material blocking block (309) is as high as the feeding groove (307 a); the front part of the side wall of the first mixing tank (2) is fixedly connected with an observation pipe (310), and the upper end of the observation pipe (310) is communicated with the first mixing tank (2); the lower end of the observation pipe (310) is communicated with the feeding pipe (308); the lower part of the observation tube (310) is fixedly connected with a fixed rod (311); a spring (312) is fixedly connected to the rear side of the fixed rod (311); the rear side of the spring (312) is fixedly connected with a current-limiting ball (313); the front part of the outer wall of the first mixing tank (2) is fixedly connected with a mounting seat (314); a laser emitter (315) is arranged on the left part of the front side of the mounting seat (314); the laser receiver (316) is arranged at the right part of the front side of the mounting seat (314).

7. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 6, wherein: the inner wall of the feeding pipe (308) is provided with a bulge (308 a), and the diameter of a channel in the middle of the bulge (308 a) is smaller than that of the flow limiting ball (313).

8. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 6, wherein: an observation part (310 a) is arranged on the front side of the observation tube (310), the observation part (310 a) is transparent, and the laser transmitter (315) and the laser receiver (316) are respectively positioned on two sides of the observation part (310 a).

9. The preparation device of the cleaning agent for the air conditioner radiator as claimed in claim 6, wherein: the water adding unit comprises a second mixing tank (401), a second electromagnetic valve (402), a second motor (403), a second connecting shaft (404), a third stirring impeller (405), a fourth stirring impeller (406), a liquid guide pipe (407), a liquid inlet pipe (408) and a liquid filler (409); a second mixing tank (401) is arranged at the right part between the two supporting underframe (1) together; a second electromagnetic valve (402) is arranged at an opening on the side wall of the second mixing tank (401); a second motor (403) is fixedly connected to the lower side of the outer wall of the second mixing tank (401); the bottom wall of the second mixing tank (401) is rotationally connected with a second connecting shaft (404); an output shaft of the second motor (403) is fixedly connected with a second connecting shaft (404); a third stirring impeller (405) is fixedly connected to the second connecting shaft (404); a fourth stirring impeller (406) is fixedly connected to the second connecting shaft (404); the fourth stirring impeller (406) is positioned above the third stirring impeller (405); a liquid guide pipe (407) is fixedly connected to the outer wall of the second material mixing tank (401); the front part of the liquid guide pipe (407) is communicated with a liquid inlet pipe (408); the inner ring surface of the liquid guide pipe (407) is communicated with four liquid adding devices (409) in annular arrays; four liquid feeders (409) penetrate into the first mixing tank (2).

10. A preparation process of an air conditioner radiator cleaning agent is characterized by comprising the following steps: the preparation process is suitable for the preparation device of the cleaning agent for the air conditioner radiator, which comprises the following working steps:

the method comprises the following steps: adding absolute ethyl alcohol from a first feeding pipe (21), adding glacial acetic acid from a second feeding pipe (22), and mixing and reacting the absolute ethyl alcohol and the glacial acetic acid in a first mixing tank (2);

step two: after the reaction is finished, sodium dodecyl sulfate and coconut oil fatty acid diethanolamide are added through a first feeding pipe (21), and stirring and mixing are continued in a first mixing tank (2);

step three: detecting the clarifying state of the mixed solution obtained in the second step by a detection unit, and feeding the mixed solution into a water adding unit after the mixed solution is changed into the clarifying state;

step four: after the mixed solution enters the water adding unit, adding water into the mixed solution through the water adding unit;

step five: and mixing the mixed solution with water, discharging and collecting.

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