CN113416959A - Efficient quick oil-removing cleaning agent for heat exchanger - Google Patents

Abstract

An efficient quick oil removal cleaning agent for a heat exchanger relates to the technical field of heat exchangers, and comprises the following components in parts by weight: 0.02-0.04 part of tetrahydrofuran, 0.1-0.15 part of thiourea, 0.6-1.2 parts of penetrating agent, 2-4 parts of dispersing agent, 3-6 parts of organic acid, 0.6-0.8 part of active agent, 3-5 parts of maleic anhydride and the balance of water, wherein the stirring rod, the time delay mechanism, the conductive mechanism and the extrusion mechanism are fixedly connected to the inner wall of the stirring rod, the time delay mechanism plays a role in prolonging the electrifying time of the conductive mechanism, and the conductive mechanism is movably connected to the inner wall of the time delay mechanism. This efficient heat exchanger is with quick deoiling cleaner compares with present agitating unit through the use of extrusion mechanism, and agitating unit after the improvement is when using, can upwards promote the material of agitated vessel bottom through extrusion mechanism, effectively solves the accumulational condition of bottom material, has further guaranteed the misce bene of cleaner raw materials, has avoided the reduction of cleaner performance, effectively increases stirring efficiency.

Description

Efficient quick oil-removing cleaning agent for heat exchanger

Technical Field

The invention relates to the technical field of heat exchangers, in particular to a high-efficiency quick oil removal cleaning agent for a heat exchanger.

Background

The heat exchanger is a device for transferring partial heat of hot fluid to cold fluid, also called heat exchanger, the heat exchanger plays an important role in chemical industry, petroleum, power, food and other industrial production, the heat exchanger can be used as a heater, a cooler, a condenser, an evaporator, a reboiler and the like in chemical industry production, the heat exchanger is widely applied, dirt and impurities often appear in the existing heat exchanger during use, and the heat exchanger needs to be cleaned regularly by using a cleaning agent, so that the heat exchanger can be better used.

Present cleaner can use agitating unit to mix various raw materials often in manufacturing process, effectively guarantees the normal performance of cleaner, but present agitating unit is stirring the in-process, and the raw materials can often appear and pile up the condition in the bottom, and this will lead to the material to mix inadequately, leads to the performance of cleaner to receive the influence to stirring efficiency has been reduced.

Therefore, we propose a high-efficiency quick oil-removing cleaning agent for heat exchangers to solve the above problems.

Disclosure of Invention

The invention adopts the following technical scheme for realizing the technical purpose: an efficient quick oil removal cleaning agent for a heat exchanger comprises the following components in parts by weight: 0.02-0.04 part of tetrahydrofuran, 0.1-0.15 part of thiourea, 0.6-1.2 parts of penetrating agent, 2-4 parts of dispersing agent, 3-6 parts of organic acid, 0.6-0.8 part of active agent, 3-5 parts of maleic anhydride and the balance of water.

The invention has the following beneficial effects:

1. this efficient heat exchanger is with quick deoiling cleaner compares with present agitating unit through the use of extrusion mechanism, and agitating unit after the improvement is when using, can upwards promote the material of agitated vessel bottom through extrusion mechanism, effectively solves the accumulational condition of bottom material, has further guaranteed the misce bene of cleaner raw materials, has avoided the reduction of cleaner performance, effectively increases stirring efficiency.

2. This efficient heat exchanger is with quick deoiling cleaner uses through the cooperation of delay mechanism and electrically conductive mechanism, and electrically conductive mechanism control extrusion mechanism switches on and off, controls whether it works, and delay mechanism effectively prolongs extrusion mechanism on-time to delay mechanism and electrically conductive mechanism can realize extrusion mechanism discontinuity work together, effectively improve stirring efficiency, effectively avoid the raw materials to pile up.

A processing equipment of a high-efficiency heat exchanger quick deoiling cleaning agent comprises: including puddler, time delay mechanism, electrically conductive mechanism and extrusion mechanism, the inner wall fixedly connected with time delay mechanism of puddler, time delay mechanism play the effect of the electrically conductive mechanism on-time of extension, and the inner wall swing joint of time delay mechanism has electrically conductive mechanism, and electrically conductive mechanism plays the effect of controlling time delay mechanism and extrusion mechanism on-off, and the inner wall swing joint of puddler bottom has extrusion mechanism, and extrusion mechanism plays the effect that the messenger bottom material that is interrupted upwards tumbles.

Further, the time delay mechanism includes the iron plate, and the inner wall fixedly connected with iron plate of puddler, the magnetic current groove has been seted up in the inner wall of puddler and the outside that is close to the iron plate, and the inner wall fixedly connected with spring one on magnetic current groove right side, the left side fixedly connected with of spring one and magnetic current inslot wall swing joint's damping piece, the middle part fixedly connected with electromagnet of damping piece, the damping hole has been seted up at the middle part of damping piece and the top that is close to the electromagnet.

Furthermore, the material of puddler is stereoplasm high strength material, the top fixedly connected with agitator motor of puddler, and agitator motor's model is BLD-0.75KW, the iron plate has the magnetic attraction effect and attracts each other with the electromagnet, the inside packing of magnetic current groove has magnetorheological suspensions, and magnetorheological suspensions rises under the magnetic effect viscosity, the size of magnetic current groove is less than the size of puddler, spring plays the effect of contracting the damping piece to the right side, the damping piece plays the effect of fixed each part, the electromagnet plays the effect of driving the damping piece to move to the left side, the size of electromagnet is less than the size of damping piece, the magnetism that the electromagnet bottom produced is the same with the magnetism at magnetic column top, the damping hole plays the effect of changing the damping piece and removes the degree of difficulty.

Further, electrically conductive mechanism includes spring two, and roof fixedly connected with spring two in the damping piece, the bottom fixedly connected with conducting block of spring two, the inner wall fixedly connected with magnetic column of conducting block, the inner diapire fixedly connected with current conducting plate in the magnetic current groove.

Furthermore, the second spring plays a role in upwards contracting the conducting block, the diameter of the second spring is smaller than the size of the magnetic flow groove, the conducting block and the conducting plate play a role in controlling the on and off of the electromagnet, the magnetic column plays a role in driving the conducting block to move downwards, and the magnetic column is made of rubidium magnet material and enables the conducting block to be electrically connected with the conducting plate.

Further, extrusion mechanism includes the electromagnetism piece, the inner wall fixedly connected with electromagnetism piece at puddler middle part, and the extrusion groove has been seted up to the bottom of puddler, and the outside of puddler is seted up and is run through and extend to the steady voltage hole of extruding the inslot side, and the interior roof fixedly connected with spring three of extruding the groove, the bottom fixedly connected with of spring three with extrude inslot wall sliding connection's piston piece.

Further, the electromagnetism piece plays the driven effect of magnetism, extrudes the groove and plays the effect that the piston block of being convenient for removed, and the diameter of extruding the groove is less than the diameter of puddler, and the steady voltage hole plays the effect of balanced atmospheric pressure, and the diameter in steady voltage hole is less than the radius of puddler, and spring three plays the effect that the piston block of being convenient for upwards contracts, and the piston block plays and extrudes liquid and flows to make the effect that the bottom raw materials upwards rolled.

Further, still include the magnetic path, the inner wall fixedly connected with magnetic path of piston piece, the balance hole that runs through the top and extend to the bottom is seted up at piston piece middle part, the interior roof fixedly connected with spring four of piston piece, the bottom fixedly connected with of spring four and the stifled piece of piston piece bottom rotation connection.

Further, the magnetic block and the electromagnetic block play a role in enabling the piston block to move downwards, the magnetism of the top of the magnetic block is the same as that of the bottom of the electromagnetic block, the balance hole plays a role in enabling the air pressure at the top and the bottom of the piston block to quickly restore balance, and the blocking block plays a role in enabling the bottom of the piston block to be in a sealing state when the piston block moves downwards.

A method of using the apparatus as described above, the steps comprising:

s1, sequentially adding all the raw materials of the cleaning agent into the stirring device, and starting a power supply of the stirring device;

s2, the stirring shaft starts to rotate to drive the stirring rod to stir the raw materials;

s3, energizing the delay mechanism to drive the conductive mechanism to move outwards, intermittently switching on and off the extrusion mechanism, and continuously and repeatedly extruding the raw materials at the bottom of the stirring device to roll upwards under the action of fluid power to promote further mixing of the materials;

and S4, stirring, and pouring out the mixed cleaning agent to obtain the required cleaning agent.

Drawings

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

FIG. 2 is an enlarged partial view of portion A of FIG. 1;

FIG. 3 is a schematic view of the open configuration of the closure of the present invention;

FIG. 4 is an enlarged partial view of the portion B in FIG. 3 according to the present invention.

In the figure: 1. a stirring rod; 2. a time delay mechanism; 21. an iron block; 22. a magnetic flow groove; 23. a first spring; 24. a damping block; 25. an electromagnet; 26. a damping hole; 3. a conductive mechanism; 31. a second spring; 32. a conductive block; 33. a magnetic column; 34. a conductive plate; 4. an extrusion mechanism; 41. an electromagnetic block; 42. an extrusion groove; 43. a pressure stabilizing hole; 44. a third spring; 45. a piston block; 46. a magnetic block; 47. a balance hole; 48. a fourth spring; 49. and (7) blocking.

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 of the 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.

The first embodiment is as follows:

referring to fig. 1-4, a high-efficiency quick oil-removing cleaning agent for a heat exchanger comprises the following components in parts by weight: 0.02 part of tetrahydrofuran, 0.1 part of thiourea, 0.6 part of penetrating agent, 2 parts of dispersing agent, 3 parts of organic acid, 0.6 part of activating agent, 3 parts of maleic anhydride and the balance of water.

A processing equipment of a high-efficiency heat exchanger quick deoiling cleaning agent comprises: including puddler 1, time delay mechanism 2, electrically conductive mechanism 3 and extrusion mechanism 4, the inner wall fixedly connected with time delay mechanism 2 of puddler 1, time delay mechanism 2 plays the effect of the 3 on-time of the electrically conductive mechanism of extension, the inner wall swing joint of time delay mechanism 2 has electrically conductive mechanism 3, electrically conductive mechanism 3 plays the effect of controlling time delay mechanism 2 and 4 on-off electricity of extrusion mechanism, the inner wall swing joint of puddler 1 bottom has extrusion mechanism 4, extrusion mechanism 4 plays the effect that the messenger bottom material that is interrupted upwards tumbles.

Delay mechanism 2 includes iron plate 21, the inner wall fixedly connected with iron plate 21 of puddler 1, magnetic current groove 22 has been seted up to the inner wall of puddler 1 and the outside that is close to iron plate 21, inner wall fixedly connected with spring 23 on magnetic current groove 22 right side, the left side fixedly connected with of spring 23 and magnetic current groove 22 inner wall swing joint's damping piece 24, the middle part fixedly connected with electromagnet 25 of damping piece 24, damping hole 26 has been seted up at the middle part of damping piece 24 and the top that is close to electromagnet 25.

The material of puddler 1 is stereoplasm high strength material, iron plate 21 has the magnetic attraction effect and attracts each other with electromagnet 25, the inside packing of magnetic current groove 22 has magnetorheological suspensions, and magnetorheological suspensions the viscosity rises under the effect of magnetism, the size of magnetic current groove 22 is less than the size of puddler 1, spring 23 plays the effect of 24 shrink to the right side with damping piece, damping piece 24 plays the effect of fixed each part, electromagnet 25 plays the effect that drives damping piece 24 and remove to the left side, electromagnet 25's size is less than damping piece 24's size, the magnetism that the electromagnet 25 bottom produced is the same with the magnetism at magnetic column 33 top, damping hole 26 plays the effect that changes damping piece 24 and remove the degree of difficulty.

The conductive mechanism 3 comprises a second spring 31, the second spring 31 is fixedly connected to the inner top wall of the damping block 24, a conductive block 32 is fixedly connected to the bottom of the second spring 31, a magnetic column 33 is fixedly connected to the inner wall of the conductive block 32, and a conductive plate 34 is fixedly connected to the inner bottom wall of the magnetic current groove 22.

The second spring 31 plays a role in upwardly contracting the conductive block 32, the diameter of the second spring 31 is smaller than the size of the magnetic flow groove 22, the conductive block 32 and the conductive plate 34 play a role in controlling the power on and off of the electromagnet 25, the magnetic column 33 plays a role in driving the conductive block 32 to move downwards, the magnetic column 33 is made of rubidium magnet material, and the conductive block 32 and the conductive plate 34 are electrically connected.

Example two:

referring to fig. 1-4, a high-efficiency quick oil-removing cleaning agent for a heat exchanger comprises the following components in parts by weight: 0.04 part of tetrahydrofuran, 0.15 part of thiourea, 1.2 parts of penetrating agent, 4 parts of dispersing agent, 6 parts of organic acid, 0.8 part of activating agent, 5 parts of maleic anhydride and the balance of water.

A processing equipment of a high-efficiency heat exchanger quick deoiling cleaning agent comprises: including puddler 1, time delay mechanism 2, electrically conductive mechanism 3 and extrusion mechanism 4, the inner wall fixedly connected with time delay mechanism 2 of puddler 1, time delay mechanism 2 plays the effect of the 3 on-time of the electrically conductive mechanism of extension, the inner wall swing joint of time delay mechanism 2 has electrically conductive mechanism 3, electrically conductive mechanism 3 plays the effect of controlling time delay mechanism 2 and 4 on-off electricity of extrusion mechanism, the inner wall swing joint of puddler 1 bottom has extrusion mechanism 4, extrusion mechanism 4 plays the effect that the messenger bottom material that is interrupted upwards tumbles.

Delay mechanism 2 includes iron plate 21, the inner wall fixedly connected with iron plate 21 of puddler 1, magnetic current groove 22 has been seted up to the inner wall of puddler 1 and the outside that is close to iron plate 21, inner wall fixedly connected with spring 23 on magnetic current groove 22 right side, the left side fixedly connected with of spring 23 and magnetic current groove 22 inner wall swing joint's damping piece 24, the middle part fixedly connected with electromagnet 25 of damping piece 24, damping hole 26 has been seted up at the middle part of damping piece 24 and the top that is close to electromagnet 25.

The material of puddler 1 is stereoplasm high strength material, iron plate 21 has the magnetic attraction effect and attracts each other with electromagnet 25, the inside packing of magnetic current groove 22 has magnetorheological suspensions, and magnetorheological suspensions the viscosity rises under the effect of magnetism, the size of magnetic current groove 22 is less than the size of puddler 1, spring 23 plays the effect of 24 shrink to the right side with damping piece, damping piece 24 plays the effect of fixed each part, electromagnet 25 plays the effect that drives damping piece 24 and remove to the left side, electromagnet 25's size is less than damping piece 24's size, the magnetism that the electromagnet 25 bottom produced is the same with the magnetism at magnetic column 33 top, damping hole 26 plays the effect that changes damping piece 24 and remove the degree of difficulty.

The conductive mechanism 3 comprises a second spring 31, the second spring 31 is fixedly connected to the inner top wall of the damping block 24, a conductive block 32 is fixedly connected to the bottom of the second spring 31, a magnetic column 33 is fixedly connected to the inner wall of the conductive block 32, and a conductive plate 34 is fixedly connected to the inner bottom wall of the magnetic current groove 22.

The second spring 31 plays a role in upwardly contracting the conductive block 32, the diameter of the second spring 31 is smaller than the size of the magnetic flow groove 22, the conductive block 32 and the conductive plate 34 play a role in controlling the power on and off of the electromagnet 25, the magnetic column 33 plays a role in driving the conductive block 32 to move downwards, the magnetic column 33 is made of rubidium magnet material, and the conductive block 32 and the conductive plate 34 are electrically connected.

Extrusion mechanism 4 includes electromagnetism piece 41, and the inner wall fixedly connected with electromagnetism piece 41 at puddler 1 middle part, the extrusion groove 42 has been seted up to the bottom of puddler 1, and the outside of puddler 1 is seted up and is run through and extend to the inboard steady voltage hole 43 of extrusion groove 42, extrudes three 44 of the interior roof fixedly connected with spring of groove 42, and three 44's of spring bottom fixedly connected with extrudes groove 42 inner wall sliding connection's piston block 45.

Electromagnetic block 41 plays the driven effect of magnetism, extrudes groove 42 and plays the effect that is convenient for piston block 45 to remove, and the diameter of extruding groove 42 is less than the diameter of puddler 1, and steady voltage hole 43 plays the effect of balanced atmospheric pressure, and the diameter of steady voltage hole 43 is less than the radius of puddler 1, and spring three 44 plays the effect that is convenient for piston block 45 upwards to shrink, and piston block 45 plays the flow of extrusion liquid to make the effect that the bottom raw materials upwards tumbled.

Still include magnet 46, the inner wall fixedly connected with magnet 46 of piston block 45, piston block 45 middle part is seted up and is run through the top and extend to the balancing hole 47 of bottom, the interior roof fixedly connected with spring four 48 of piston block 45, the bottom fixedly connected with of spring four 48 and the stopper 49 of piston block 45 bottom rotation connection.

The magnet block 46 and the electromagnetic block 41 together play a role in moving the piston block 45 downwards, the magnetism of the top of the magnet block 46 is the same as that generated at the bottom of the electromagnetic block 41, the balance hole 47 plays a role in quickly restoring the balance of the air pressures at the top and the bottom of the piston block 45, and the blocking block 49 plays a role in enabling the bottom of the piston block 45 to be in a sealed state when the piston block 45 moves downwards.

A method for using the above apparatus, the steps comprising:

s1, sequentially adding all the raw materials of the cleaning agent into the stirring device, and starting a power supply of the stirring device;

s2, the stirring shaft starts to rotate to drive the stirring rod 1 to stir the raw materials;

s3, energizing the time delay mechanism 2 to drive the conductive mechanism 3 to move outwards, intermittently switching on and off the extrusion mechanism 4, and continuously and repeatedly extruding the raw materials at the bottom of the stirring device to roll upwards under the action of fluid power to promote the further mixing of the materials;

and S4, stirring, and pouring out the mixed cleaning agent to obtain the required cleaning agent.

The working principle is as follows: when the stirring device is used, the device is electrified, the stirring rod 1 is driven to rotate under the action of the stirring motor, and simultaneously, as the conductive block 32 is electrically connected with the conductive plate 34, therefore, the electromagnet 25 and the electromagnetic block 41 are both in the energized state and generate magnetism, and the conductive block 32 is subjected to the force of the magnetic repulsion between the electromagnet 25 and the magnetic pillar 33, because the magnetic repulsion is larger than the elastic force of the second spring 31, the conductive block 32 is protruded downward, the bottom of the conductive block 32 is kept in contact with the top of the conductive plate 34 all the time, and the damping block 24 is subjected to the magnetic attraction force of the electromagnet 25 and the iron block 21, because the suction force is larger than the elastic force of the first spring 23 and the viscosity of the magnetorheological fluid is increased under the magnetic action, the difficulty of the magnetorheological fluid passing through the damping holes 26 is increased, so that the damping blocks 24 can slowly move inwards, and the electrifying time of the electromagnetic blocks 41 and the electromagnet 25 is effectively prolonged;

meanwhile, the electromagnetic block 41 and the magnetic block 46 in the extruding mechanism 4 are mutually exclusive, and the acting force is greater than the elastic force of the spring III 44, so that the piston block 45 can move downwards to extrude liquid downwards, and according to hydromechanics, the raw material at the bottom can be extruded by the extruded raw material, so that the raw material at the bottom rolls upwards, the problem that the raw material is accumulated at the bottom is effectively solved, and the mixing efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The efficient quick oil removal cleaning agent for the heat exchanger is characterized by comprising the following components in parts by mass: 0.02-0.04 part of tetrahydrofuran, 0.1-0.15 part of thiourea, 0.6-1.2 parts of penetrating agent, 2-4 parts of dispersing agent, 3-6 parts of organic acid, 0.6-0.8 part of active agent, 3-5 parts of maleic anhydride and the balance of water.

2. The efficient quick oil-removing cleaning agent for the heat exchanger as claimed in claim 1, wherein the cleaning agent comprises: in addition, the processing equipment comprises the following processing equipment: puddler (1), time delay mechanism (2), electrically conductive mechanism (3) and extrusion mechanism (4), the inner wall fixedly connected with time delay mechanism (2) of puddler (1), time delay mechanism (2) play the effect of the electrically conductive mechanism (3) on-time of extension, the inner wall swing joint of time delay mechanism (2) has electrically conductive mechanism (3), electrically conductive mechanism (3) play the effect of control time delay mechanism (2) and extrusion mechanism (4) on-off electricity, the inner wall swing joint of puddler (1) bottom has extrusion mechanism (4), extrusion mechanism (4) play the effect that the messenger bottom material that is interrupted upwards tumbles.

3. The efficient quick oil-removing cleaning agent for the heat exchanger as claimed in claim 2, wherein the cleaning agent comprises: delay time mechanism (2) include iron plate (21), inner wall fixedly connected with iron plate (21) of puddler (1), magnetic current groove (22) have been seted up in the inner wall of puddler (1) and the outside that is close to iron plate (21), inner wall fixedly connected with spring (23) on magnetic current groove (22) right side, the left side fixedly connected with of spring (23) and magnetic current groove (22) inner wall swing joint's damping piece (24), the middle part fixedly connected with electromagnet (25) of damping piece (24), damping hole (26) have been seted up at the middle part of damping piece (24) and the top that is close to electromagnet (25).

4. The efficient rapid oil-removing cleaning agent for the heat exchanger as claimed in claim 3, wherein the cleaning agent comprises: the material of puddler (1) is stereoplasm high strength material, and iron plate (21) have magnetism and inhale the effect and with electromagnet (25) inter attraction, and the inside packing of magnetism chute (22) has magnetorheological suspensions, and magnetorheological suspensions the viscosity rise under the effect of magnetism, and the size of magnetism chute (22) is less than the size of puddler (1), and spring one (23) play with damping piece (24) to the effect of right side shrink, and damping piece (24) play the effect of fixed each part.

5. The efficient rapid oil-removing cleaning agent for the heat exchanger as claimed in claim 3, wherein the cleaning agent comprises: the conductive mechanism (3) comprises a second spring (31), the inner top wall of the damping block (24) is fixedly connected with the second spring (31), the bottom of the second spring (31) is fixedly connected with a conductive block (32), the inner wall of the conductive block (32) is fixedly connected with a magnetic column (33), and the inner bottom wall of the magnetic current groove (22) is fixedly connected with a conductive plate (34).

6. The efficient rapid oil-removing cleaning agent for the heat exchanger as claimed in claim 4, wherein the cleaning agent comprises: the second spring (31) plays a role in upwards contracting the conductive block (32), the diameter of the second spring (31) is smaller than the size of the magnetic flow groove (22), and the conductive block (32) and the conductive plate (34) play a role in controlling the electromagnet (25) to be switched on and off.

7. The efficient quick oil-removing cleaning agent for the heat exchanger as claimed in claim 2, wherein the cleaning agent comprises: extrusion mechanism (4) are including electromagnetism piece (41), the inner wall fixedly connected with electromagnetism piece (41) at puddler (1) middle part, and extrusion groove (42) have been seted up to the bottom of puddler (1), and run through and extend to extrusion groove (42) inboard steady voltage hole (43) have been seted up in the outside of puddler (1), and the interior roof fixedly connected with spring three (44) of extrusion groove (42), the bottom fixedly connected with of spring three (44) with extrude groove (42) inner wall sliding connection's piston block (45).

8. The efficient quick oil-removing cleaning agent for the heat exchanger as claimed in claim 7, wherein the cleaning agent comprises: the electromagnetic block (41) plays a role in magnetic transmission, the extrusion groove (42) plays a role in facilitating the movement of the piston block (45), the diameter of the extrusion groove (42) is smaller than that of the stirring rod (1), the pressure stabilizing hole (43) plays a role in balancing air pressure, and the diameter of the pressure stabilizing hole (43) is smaller than the radius of the stirring rod (1).

9. The efficient quick oil-removing cleaning agent for the heat exchanger as claimed in claim 7, wherein the cleaning agent comprises: still include magnetic path (46), the inner wall fixedly connected with magnetic path (46) of piston piece (45), balance hole (47) that run through the top and extend to the bottom are seted up to piston piece (45) middle part, the interior roof fixedly connected with spring four (48) of piston piece (45), the bottom fixedly connected with of spring four (48) and piston piece (45) bottom rotation be connected's sprue (49).

10. A method of using the apparatus of claim 2, the steps comprising:

s1, sequentially adding all the raw materials of the cleaning agent into the stirring device, and starting a power supply of the stirring device;

s2, the stirring shaft starts to rotate to drive the stirring rod (1) to stir the raw materials;

s3, energizing the time delay mechanism (2) to drive the conductive mechanism (3) to move outwards, switching on and off the extrusion mechanism (4) intermittently, and extruding the raw materials at the bottom of the stirring device continuously and repeatedly to roll upwards under the action of fluid power to promote the further mixing of the materials;

and S4, stirring, and pouring out the mixed cleaning agent to obtain the required cleaning agent.

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