CN114870775A - Amino silicone oil emulsification reactor - Google Patents

Abstract

The invention relates to the technical field of stirring, in particular to an amino silicone oil emulsification reactor, which comprises a reactor main body, wherein a discharge pipe is fixedly installed at the bottom end of the reactor main body, a stirring device is fixedly installed inside the reactor main body, a water inlet is fixedly installed at the top end of the reactor main body, a second electronic valve is fixedly installed on the water inlet, a stirring area is arranged inside the reactor main body, an emulsifier quantifying pipe and an amino silicone oil quantifying pipe are both arranged inside the reactor main body, and discharge holes are respectively formed in the bottom ends of the emulsifier quantifying pipe and the amino silicone oil quantifying pipe. According to the invention, after the proportion of the emulsifier to the amino silicone oil is set, the emulsifier and the amino silicone oil can be automatically put into the machine according to the set proportion, and the machine can be always in a working state, so that the working efficiency of the reactor is increased, and the time for occupying workers can be reduced.

Description

Amino silicone oil emulsification reactor

Technical Field

The invention relates to the technical field of stirring, in particular to an amino silicone oil emulsification reactor.

Background

The silicone oil (amino silicone oil) has excellent chemical stability, heat resistance, cold resistance, weather resistance, hydrophobicity, lubricity, high refractivity and storage stability, is widely applied to various industrial industries, including various fields of automobiles, buildings, chemicals, electrical engineering and electronic industry, medical industry, paper pulp and papermaking, transportation industry, aerospace industry, textile, leather, mechanical engineering, metal processing and the like, and can be used after being emulsified by a reactor in normal use.

When amino silicone oil emulsification is carried out in a common amino silicone oil emulsification reactor, the proportion of an emulsifier and the amino silicone oil needs to be manually prepared, and when amino silicone oil is emulsified every time, the emulsifier and the amino silicone oil which are well prepared need to be manually put into the reactor, so that more time of workers can be occupied, and when the emulsifier is manually put into the reactor, the reactor needs to be stopped, so that the working efficiency of the reactor is reduced.

Therefore, an amino silicone oil emulsification reactor is provided.

Disclosure of Invention

The invention aims to provide an amino silicone oil emulsification reactor, which can automatically put an emulsifier and amino silicone oil according to a set proportion after the proportion of the emulsifier and the amino silicone oil is set, and the machine can be always in a working state, so that the working efficiency of the reactor is improved, and meanwhile, the time for occupying workers can be reduced, so that the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an amino silicone oil emulsion reactor, includes the reactor main part, the bottom fixed mounting of reactor main part has the discharge pipe, fixed mounting has first electronic valve on the discharge pipe, and first electronic valve electric connection is on the power, the inside fixed mounting of reactor main part has agitating unit, the top fixed mounting of reactor main part has the water inlet, fixed mounting has the second electronic valve on the water inlet, and second electronic valve electric connection is on the power, the stirring district has been seted up to the inside of reactor main part, the inside fixed mounting of reactor main part has the power.

The reactor comprises an emulsifier quantifying pipe and an amino silicone oil quantifying pipe, wherein the emulsifier quantifying pipe and the amino silicone oil quantifying pipe are both arranged inside the reactor main body, the top ends of the emulsifier quantifying pipe and the amino silicone oil quantifying pipe are both fixedly provided with a feeding hole, and the bottom ends of the emulsifier quantifying pipe and the amino silicone oil quantifying pipe are both provided with a discharging hole.

And a component assembly.

And a component assembly for separating the emulsifier and the amino silicone oil which enter the stirring area is fixedly arranged in the reactor main body.

When the reactor is connected with a power supply, the electronic valve can work, then water is injected into the reactor, meanwhile, the feed inlets at the upper ends of the emulsifier quantitative tube and the amino silicone oil quantitative tube are opened, the discharge outlets at the lower ends of the emulsifier quantitative tube and the amino silicone oil quantitative tube are sealed, then the emulsifier and the amino silicone oil injected into the emulsifier quantitative tube and the amino silicone oil quantitative tube are sealed, when the emulsifier quantitative tube and the amino silicone oil quantitative tube are full, the feed inlet at the upper end is sealed, the discharge outlet at the lower end is opened, then the emulsifier and the amino silicone oil in the emulsifier quantitative tube and the amino silicone oil quantitative tube are injected into the reactor main body and are stirred, the stirred amino silicone oil is discharged through the discharge pipe after stirring is finished, when the stirred amino silicone oil is discharged, the discharge pipe is sealed, then the water, the amino silicone oil and the water are injected into the reactor main body again, Emulsifier and amino silicone oil, then stir, when the staff decides the weight then starts this reactor like this, this reactor can carry out the pan feeding always, stirring and discharge, and artifical blowing when so not needing the stirring each time can save the blowing time, increases the reaction efficiency of this reactor.

Preferably, the component subassembly is including seting up the inside component groove in reactor main part, movable mounting has the screw thread movable plate in the component groove, the top fixed mounting of screw thread movable plate has the feeding closing plate, and in the feeding closing plate extended to the feed inlet, the direction that the feed inlet was kept away from to the feeding closing plate has seted up the second blanking mouth, the bottom fixed mounting of screw thread movable plate has the unloading closing plate, and in the unloading closing plate extended to the discharge outlet, first blanking mouth has been seted up to the position that the unloading closing plate is located the discharge outlet, the inside fixed mounting of reactor main part has the drive assembly that drive screw thread movable plate removed.

When the thread moving plate moves, the feeding sealing plate can be pushed to open the feeding hole, meanwhile, the discharging hole is sealed by the discharging sealing plate, when the emulsifier quantifying pipe is filled with the emulsifier quantifying pipe, the thread moving plate can drive the feeding sealing plate and the discharging sealing plate to move continuously, then the feeding hole is sealed, the discharging hole is opened, the emulsifier and the amino silicone oil in the emulsifier quantifying pipe and the amino silicone oil quantifying pipe are injected into the reactor, so that the emulsifier and the amino silicone oil in the reactor can be added, the emulsifier and the amino silicone oil can be fixed, the emulsifier and the amino silicone oil can be accurately mixed according to the proportion, and the emulsifying quality of the amino silicone oil can be improved.

Preferably, the drive assembly is including seting up the inside mounting groove in reactor main part, the inside fixed mounting of mounting groove has the motor, and motor electric connection is on the power, the output fixed mounting of motor has the bull stick, fixed mounting has first bevel gear on the bull stick, one side of first bevel gear is rotated and is installed reciprocal lead screw, one side fixed mounting that reciprocal lead screw is close to first bevel gear has second bevel gear, and is gear engagement between first bevel gear and the second bevel gear, screw thread movable plate screw drive installs on reciprocal lead screw, the inside fixed mounting of reactor main part has the time delay subassembly that first electronic valve of control, second electronic valve and motor were opened and close.

When the motor works, the rotating rod can be driven to rotate, the rotating rod rotates, then the first bevel gear and the second bevel gear are utilized to drive the reciprocating screw rod to rotate, the threaded movable plate can be moved through the rotation of the reciprocating screw rod, the rotating speed and the rotating time of the motor can be accurately controlled through external control equipment, the threaded movable plate is matched, automatic quantification can be achieved, the components of the emulsifier and the amino silicone oil are fixedly placed, and the emulsifying quality of the amino silicone oil is improved.

Preferably, the delay assembly comprises a delay shell fixedly installed inside the reactor main body, an electromagnet is fixedly installed inside the delay shell, the electromagnet is electrically connected to the power supply, a first lifting plate is movably installed at one end, far away from the electromagnet, inside the delay shell, of the first lifting plate, an iron sheet is fixedly installed at one side, close to the electromagnet, of the first lifting plate, conductive blocks and a first conductive plate are movably installed at two sides of the first lifting plate respectively, two first power connection blocks, a second power connection block and a third power connection block which are matched with the conductive blocks are fixedly installed inside the delay shell, the two first power connection blocks are electrically connected to the power supply, the second electronic valve and the motor respectively, the two second power connection blocks are electrically connected to the power supply and the stirring device respectively, and the two third power connection blocks are electrically connected to the power supply and the first electronic valve respectively, the inside fixed mounting of time delay shell has two first electricity boards that connect that mutually support with first current conducting plate, and two first electricity boards electric connection respectively on power and electro-magnet, the inside fixed mounting of time delay shell has the shrink subassembly of the shrink of first current conducting plate of control and conducting block.

When the reactor is electrified and the first current-conducting plate is connected with the first electricity-connecting plate, the electromagnet is electrified, then the sound-absorbing iron sheet moves upwards, the iron sheet drives the first lifting plate to move, when the first lifting plate moves to be in contact with the electromagnet, the circuits of the two first electricity-connecting blocks are communicated, the current-conducting block is in contact with the first electricity-connecting block, the first current-conducting plate disconnects the two first electricity-connecting plates, then the first lifting plate moves downwards slowly and is in contact with the two second electricity-connecting blocks, the circuits of the two second electricity-connecting blocks are communicated, the circuits of the two third electricity-connecting blocks are continuously and slowly descended, when the first lifting plate moves to the bottom end of the delayed shell, the circuits of the two first electricity-connecting plates are connected by the first current-conducting plate again, then the electromagnet is enabled to work, and thus the reactor can automatically discharge materials, stirring and row material can save the time of artifical blowing, increases the work efficiency of this reactor.

Preferably, shrink subassembly is including seting up the shrink groove in first lifter plate inside, the inside perpendicular slidable mounting of shrink groove has first rack, and first rack extends to the outside of first lifter plate, the internal rotation of shrink groove installs steering gear, and is gear engagement between first rack and the steering gear, the inside parallel movable mounting in shrink groove has the second rack, and the second rack extends to the outside of first lifter plate, be gear engagement between second rack and the steering gear, conducting block and first conducting plate are installed respectively to the both sides of second rack.

When the first lifting plate moves to be in contact with the electromagnet, the first rack can be pushed to move towards the direction far away from the electromagnet, then the steering gear is utilized to drive the second rack to move, then the second rack moves leftwards, the conducting blocks are communicated with the circuits of the two first power-on blocks, when the first lifting plate moves to the bottom end of the delay shell, the first rack can be pushed to move towards the direction close to the electromagnet, then the steering gear is utilized to move the steering gear rightwards, then the first conducting plate is pushed to move rightwards, the first conducting plate is communicated with the circuits of the two first power-on plates, and therefore the reactor can be automatically and repeatedly used for discharging, stirring and discharging can be achieved, the discharging time can be saved, and the working efficiency of the reactor is improved.

Preferably, the outage groove has been seted up to the inside of reactor main part, the inside fixed mounting of outage groove has the second to connect the electroplax, and the second connects the electroplax electric connection on the motor, one side slidable mounting of second to connect the electroplax has the second current conducting plate, second current conducting plate electric connection is on the power, fixed mounting has the circular telegram spring between one side that the second current conducting plate was kept away from the second and the inner wall of outage groove, and circular telegram spring electric connection is on the power, the inside fixed mounting of reactor main part has the control mechanism of control circular telegram spring circular telegram.

When the circular telegram spring circular telegram, the circular telegram spring just can contract, then the pulling second current conducting plate removes to the direction that is close to the circular telegram spring, the removal through second current conducting plate just can break off the second current conducting plate and connect the connection of electroplax with the second, when the circular telegram spring outage, the circular telegram spring extends, then make second current conducting plate and second connect the electroplax to reconnect, can break off the connection that second current conducting plate and second connect the electroplax like this, make the motor stop work, when pouring into emulsifier and amino silicone oil to emulsifier ration pipe and amino silicone oil ration pipe inside, can make the motor stop work one end time, it is not full to place emulsifier ration pipe and amino silicone oil ration pipe, can better carry out the ration to the emulsifier and the amino silicone oil of putting into, increase amino silicone oil's emulsification quality.

Preferably, control mechanism includes the inside control housing of fixed mounting in reactor main part, the inside movable mounting of control housing has first movable plate, one side fixed mounting of first movable plate has the push rod, and the push rod extends to the component inslot, be elastic connection between the inside of first movable plate and control housing, one side fixed mounting that the push rod was kept away from to first movable plate has and leads electrical pillar, the inside movable mounting of control housing has and leads two power transmission boards of electrical pillar mutually supported, and two power transmission board electric connection respectively on power and circular telegram spring, the inside fixed mounting of control housing has the removal subassembly that control power transmission board removed.

When the threaded moving plate moves to the leftmost end, the push rod can be pressed, the push rod and the first moving plate can move towards the direction far away from the threaded moving plate through the pressing of the push rod, then the conductive columns are connected with the power transmission plates, then the two power transmission plates are connected with the circuit, the two power transmission plates are communicated for a while, the connection can be disconnected, when the threaded moving plate moves towards the right, the pressing of the push rod can be loosened, and because the first moving plate is elastically connected with the inner wall of the control shell, the first moving plate can move towards the direction close to the push rod, so that the motor can stop working for a while, and the emulsifier and the amino silicone oil can be better injected into the emulsifier dosing tube and the amino silicone oil dosing tube.

Preferably, the movable assembly comprises a first cavity arranged inside the control shell, a second lifting plate is movably arranged inside the first cavity, a trapezoidal column is fixedly arranged on one side of the second lifting plate, and the trapezoidal column extends into the column control shell.

When the first movable plate moves towards the direction far away from the threaded movable plate, the trapezoid columns can be pushed to move towards the direction far away from the first movable plate, then the second lifting plate is made to move, gas at the lower end of the second lifting plate can be pushed into the second cavity through the pipeline by means of the movement of the second lifting plate, and therefore the conductive columns can be better utilized to communicate circuits of the two power transmission plates, and connection can be better achieved.

Preferably, the second cavity has been seted up to control housing inside, the inside movable mounting of second cavity has the second movable plate, one side fixed mounting of second movable plate has the extension post, and extends in the post extends to control housing, the electric tank, two have been seted up to the one side of keeping away from the second movable plate of extension post the electric transmission board fixed mounting is on the inner wall of electric tank, the inside fixed mounting of accuse second cavity has the extension mechanism of two electric transmission board connect time of extension.

When the gas in the second cavity increases, just can promote the second movable plate to the direction removal that is close to the extension post, then the extension post drives two transmission plates and moves to the direction that is close to electrically conductive post, then utilizes to lead the circuit of two transmission plates of electrical pillar intercommunication, and the utilization that like this can be better leads electrical pillar and makes two transmission plates connect.

Preferably, the extension mechanism comprises a reduction gear fixedly mounted in the second cavity, a reduction rack is fixedly mounted on one side, far away from the extension column, of the second moving plate, and the reduction rack is meshed with the reduction gear through a gear.

When the first movable plate loosens the press of trapezoidal post, because be elastic connection between the inner wall of extension post and second cavity, so the second movable plate just can move to the direction of keeping away from conductive post, then utilizes reduction gear to slow down the speed that the second movable plate moved left, can prolong the time of two transmission board intercommunications like this, can increase the time that the motor stopped working, can be better pour into emulsifier and amino silicone oil into to emulsifier dosage tube and amino silicone oil dosage tube.

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

1. after the proportion of the emulsifier and the amino silicone oil is set, the emulsifier and the amino silicone oil can be automatically put into the machine according to the set proportion, and the machine can be always in a working state, so that the working efficiency of the reactor is improved, and meanwhile, the time for occupying workers can be reduced.

2. When the motor works, the discharging sealing plate and the feeding sealing plate can be driven to move, then the feeding hole and the discharging hole are sealed and opened, so that the emulsifier and the amino silicone oil which are put into the reactor can be better quantified, and the emulsifying quality of the amino silicone oil can be improved.

3. The time for communicating the two power transmission plates is prolonged by utilizing the reduction rack and the reduction gear, so that the motor stops working for a period of time, and the emulsifier and the amino silicone oil can be injected into the emulsifier quantitative pipe and the amino silicone oil quantitative pipe better.

4. When two first electricity connect the board intercommunication, can connect the circuit of electro-magnet, when first lifter plate removed the top, just can break off two first circuits that connect the electric board, then make the electro-magnet stop work, when the electro-magnet stop work, first lifter plate just can slowly fall, then communicate first electricity piece that connects in proper order, the second connects the circuit that electricity piece and third connect the electricity piece, make the reactor carry out the blowing, stirring and discharge, the operating time that can save the reactor more like this, can improve the work efficiency of reactor.

Drawings

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is a schematic front side exploded view of the present invention;

FIG. 3 is an enlarged view of A of FIG. 2 according to the present invention;

FIG. 4 is a left side schematic view of the delay housing of the present invention;

FIG. 5 is a right side view of the delay housing of the present invention;

FIG. 6 is an enlarged view of B of FIG. 2 according to the present invention;

FIG. 7 is an enlarged schematic view of C of FIG. 2 according to the present invention;

FIG. 8 is an enlarged schematic view of D of FIG. 2 in accordance with the present invention;

FIG. 9 is an enlarged schematic view of E of FIG. 3 according to the present invention;

fig. 10 is an enlarged view of F of fig. 6 according to the present invention.

In the figure: 1. a reactor body; 2. a stirring device; 3. a feed inlet; 4. an emulsifier dosing tube; 5. an amino silicone oil quantifying pipe; 6. a water inlet; 7. blanking a sealing plate; 8. a first blanking port; 9. a discharge pipe; 10. a time delay housing; 11. an electromagnet; 12. a first lifter plate; 13. iron sheets; 14. a first conductive plate; 15. a first power connection plate; 16. a conductive block; 17. a first power connection block; 18. a second power connection block; 19. a third power connection block; 20. a first rack; 21. a steering gear; 22. a second rack; 23. a control housing; 24. a first moving plate; 25. a push rod; 26. a conductive post; 27. a first cavity; 28. a second lifter plate; 29. a trapezoidal column; 30. a power transmission plate; 31. a second cavity; 32. a second moving plate; 33. a reduction rack; 34. a reduction gear; 35. a power-off slot; 36. a power-on spring; 37. a second conductive plate; 38. a second power connection plate; 39. a motor; 40. a rotating rod; 41. a first bevel gear; 42. a reciprocating screw rod; 43. a second bevel gear; 44. a threaded moving plate; 45. a feed seal plate; 46. a second blanking port; 47, a first electronic valve; 48. a second electronic valve; 49. a discharge port; 50. and (6) extending the column.

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.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 10, the present invention provides an amino silicone oil emulsion reactor, which has the following technical scheme:

the utility model provides an amino silicone oil emulsion reactor, including reactor main part 1, the bottom fixed mounting of reactor main part 1 has discharge pipe 9, fixed mounting has first electronic valve 47 on discharge pipe 9, and 47 electric connection of first electronic valve are on the power, the inside fixed mounting of reactor main part 1 has agitating unit 2, the top fixed mounting of reactor main part 1 has water inlet 6, fixed mounting has second electronic valve 48 on water inlet 6, and 48 electric connection of second electronic valve are on the power, the stirring district has been seted up to the inside of reactor main part 1, the inside fixed mounting of reactor main part 1 has the power.

Emulsifier dosage tube 4 and amino silicone oil dosage tube 5, emulsifier dosage tube 4 and amino silicone oil dosage tube 5 are all seted up in the inside of reactor main part 1, and the equal fixed mounting in top of emulsifier dosage tube 4 and amino silicone oil dosage tube 5 has feed inlet 3, and discharge gate 49 has all been seted up to emulsifier dosage tube 4 and amino silicone oil dosage tube 5's bottom.

And a component assembly.

The method is characterized in that:

a component assembly for separating the emulsifier and the amino silicone oil which enter the stirring area is fixedly arranged in the reactor main body 1.

When the reactor is connected with a power supply, the electronic valve can work, then water is injected into the reactor, meanwhile, the feed inlet 3 at the upper end of the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 is opened, the discharge outlet 49 at the lower end of the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 is sealed, then the emulsifier and the amino silicone oil injected into the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 are filled, when the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 are full, the feed inlet 3 at the upper end is sealed, the discharge outlet at the lower end is opened, then the emulsifier and the amino silicone oil in the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 are injected into the reactor main body 1 and then stirred, after the stirring is finished, the stirred amino silicone oil is discharged through the discharge pipe 9, when the stirred amino silicone oil is discharged, the discharging pipe 9 can be sealed, then water, an emulsifying agent and amino silicone oil are injected into the reactor main body 1 again, stirring is carried out, and therefore when a worker determines the weight and then starts the reactor, the reactor can be fed, stirred and discharged all the time, manual discharging is not needed during each stirring, discharging time can be saved, and reaction efficiency of the reactor is improved.

Referring to fig. 6 and 7, the component assembly includes a component groove formed in the reactor main body 1, a threaded moving plate 44 is movably mounted in the component groove, a feeding sealing plate 45 is fixedly mounted at the top end of the threaded moving plate 44, the feeding sealing plate 45 extends into the feeding port 3, a second blanking port 46 is formed in the direction, away from the feeding port 3, of the feeding sealing plate 45, a blanking sealing plate 7 is fixedly mounted at the bottom end of the threaded moving plate 44, the blanking sealing plate 7 extends into the discharging port 49, a first blanking port 8 is formed in the position, located at the discharging port 49, of the blanking sealing plate 7, and a driving assembly for driving the threaded moving plate 44 to move is fixedly mounted in the reactor main body 1.

When the thread moving plate 44 moves, the feeding sealing plate 45 is pushed to open the feeding hole 3, meanwhile, the discharging hole 49 is sealed by the discharging sealing plate 7, when the emulsifier quantifying pipe 4 is filled with the emulsifier quantifying pipe, the thread moving plate 44 drives the feeding sealing plate 45 and the discharging sealing plate 7 to move continuously, then, the feeding hole 3 is sealed, the discharging hole 49 is opened, the emulsifier and the amino silicone oil in the emulsifier quantifying pipe 4 and the amino silicone oil quantifying pipe 5 are injected into the reactor, so that the emulsifier and the amino silicone oil in the reactor can be added to be fixed, mixing can be accurately carried out according to the proportion, and the emulsifying quality of the amino silicone oil can be improved.

Referring to fig. 7, as an embodiment of the present invention, the driving assembly includes a mounting groove formed in the reactor main body 1, a motor 39 is fixedly installed in the mounting groove, the motor 39 is electrically connected to a power supply, a rotating rod 40 is fixedly installed at an output end of the motor 39, a first bevel gear 41 is fixedly installed on the rotating rod 40, a reciprocating screw rod 42 is rotatably installed at one side of the first bevel gear 41, a second bevel gear 43 is fixedly installed at a side of the reciprocating screw rod 42 close to the first bevel gear 41, the first bevel gear 41 is in gear engagement with the second bevel gear 43, a thread moving plate 44 is spirally installed on the reciprocating screw rod 42, and a delay assembly for controlling the opening and closing of the first electronic valve 47, the second electronic valve 48 and the motor 39 is fixedly installed in the reactor main body 1.

When the motor 39 works, the rotating rod 40 is driven to rotate, the first conical gear 41 and the second conical gear 43 are utilized to drive the reciprocating screw rod 42 to rotate through the rotation of the rotating rod 40, the thread moving plate 44 can be moved through the rotation of the reciprocating screw rod 42, the rotating speed and the rotating time of the motor are accurately controlled through external control equipment, the automatic quantification can be realized through the matching of the thread moving plate 44, the component of the emulsifier and the amino silicone oil is fixed, and the emulsifying quality of the amino silicone oil is improved.

Referring to fig. 3, as an embodiment of the present invention, the delay assembly includes a delay housing 10 fixedly installed inside the reactor main body 1, an electromagnet 11 is fixedly installed inside the delay housing 10, the electromagnet 11 is electrically connected to a power supply, a first lifting plate 12 is movably installed at one end of the delay housing 10 far from the electromagnet 11, an iron sheet 13 is fixedly installed at one side of the first lifting plate 12 close to the electromagnet 11, a conductive block 16 and a first conductive plate 14 are respectively movably installed at both sides of the first lifting plate 12, two first power connection blocks 17, a second power connection block 18 and a third power connection block 19 which are mutually matched with the conductive block 16 are fixedly installed inside the delay housing 10, the two first power connection blocks 17 are respectively electrically connected to the power supply, a second electronic valve 48 and a motor 39, the two second power connection blocks 18 are respectively electrically connected to the power supply and the stirring device 2, the two third electricity-connecting blocks 19 are respectively and electrically connected to the power supply and the first electronic valve 47, the two first electricity-connecting plates 15 mutually matched with the first electricity-conducting plate 14 are fixedly installed inside the delay shell 10, the two first electricity-connecting plates 15 are respectively and electrically connected to the power supply and the electromagnet 11, and the contraction assembly for controlling the contraction of the first electricity-conducting plate 14 and the electricity-conducting block 16 is fixedly installed inside the delay shell 10.

When the reactor is powered on and the first conducting plate 14 is connected with the first conducting plate 15, the electromagnet 11 is powered on, then the sound-absorbing iron sheet 13 moves upwards, the iron sheet 13 drives the first lifting plate 12 to move, when the first lifting plate 12 moves to be in contact with the electromagnet 11, then the circuits of the two first conducting blocks 17 are communicated, the conducting block 16 is in contact with the first conducting block 17, meanwhile, the first conducting plate 14 is disconnected from the two first conducting plates 15, then the first lifting plate 12 moves downwards slowly and is in contact with the two second conducting blocks 18, the circuits of the two second conducting blocks 18 are communicated, the circuits of the two third conducting blocks 19 are communicated continuously and slowly, when the first lifting plate 12 moves to the bottom end of the delay shell 10, the circuits of the two first conducting plates 15 are connected by the first conducting plate 14 again, then the electromagnet 11 is operated, so that the reactor can automatically discharge, stir and discharge materials, the time of manual discharging can be saved, and the working efficiency of the reactor is improved.

Referring to fig. 9, as an embodiment of the present invention, the retraction assembly includes a retraction slot opened inside the first lifting plate 12, a first rack 20 is vertically slidably installed inside the retraction slot, the first rack 20 extends to the outer side of the first lifting plate 12, a steering gear 21 is rotatably installed inside the retraction slot, gear engagement is provided between the first rack 20 and the steering gear 21, a second rack 22 is movably installed inside the retraction slot in parallel, the second rack 22 extends to the outer side of the first lifting plate 12, gear engagement is provided between the second rack 22 and the steering gear 21, and the conductive block 16 and the first conductive plate 14 are respectively installed on both sides of the second rack 22.

When the first lifting plate 12 moves to be in contact with the electromagnet 11, the first rack 20 is pushed to move in the direction away from the electromagnet 11, then the steering gear 21 is utilized to drive the second rack 22 to move, then the second rack 22 moves leftwards, the conducting block 16 is communicated with the circuits of the two first power-on blocks 17, when the first lifting plate 12 moves to the bottom end of the delay shell 10, the first rack 20 is pushed to move in the direction close to the electromagnet 11, then the steering gear 21 is utilized to move rightwards, then the first conducting plate 14 is pushed rightwards, the first conducting plate 14 is communicated with the circuits of the two first power-on plates 15, and therefore the reactor can be automatically and repeatedly discharged, stirring and discharging can be achieved, discharging time can be saved, and working efficiency of the reactor can be improved.

Referring to fig. 6, as an embodiment of the present invention, a cut-off groove 35 is formed in a reactor main body 1, a second conducting plate 38 is fixedly installed in the cut-off groove 35, the second conducting plate 38 is electrically connected to a motor 39, a second conducting plate 37 is slidably installed on one side of the second conducting plate 38, the second conducting plate 37 is electrically connected to a power supply, an energizing spring 36 is fixedly installed between one side of the second conducting plate 37, which is far away from the second conducting plate 38, and an inner wall of the cut-off groove 35, the energizing spring 36 is electrically connected to the power supply, and a control mechanism for controlling the energizing spring 36 is fixedly installed in the reactor main body 1.

When the electrifying spring 36 is electrified, the electrifying spring 36 contracts, then the second conducting plate 37 is pulled to move towards the direction close to the electrifying spring 36, the second conducting plate 37 and the second electrifying plate 38 can be disconnected through the movement of the second conducting plate 37, when the electrifying spring 36 is powered off, the electrifying spring 36 extends, then the second conducting plate 37 and the second electrifying plate 38 are reconnected, so that the connection between the second conducting plate 37 and the second electrifying plate 38 can be disconnected, the motor 39 stops working, when the emulsifier and the amino silicone oil are injected into the emulsifier quantifying pipe 4 and the amino silicone oil quantifying pipe 5, the motor 39 can stop working for one end time, the emulsifier quantifying pipe 4 and the amino silicone oil quantifying pipe 5 are placed to be not full, the injected emulsifier and the amino silicone oil can be quantified, and the emulsification quality of the amino silicone oil is improved.

Referring to fig. 6, as an embodiment of the present invention, the control mechanism includes a control housing 23 fixedly installed inside the reactor main body 1, a first moving plate 24 is movably installed inside the control housing 23, a push rod 25 is fixedly installed on one side of the first moving plate 24, the push rod 25 extends into the fractional slot, the first moving plate 24 is elastically connected with the inside of the control housing 23, a conductive column 26 is fixedly installed on one side of the first moving plate 24 away from the push rod 25, two power transmission plates 30 mutually matched with the conductive column 26 are movably installed inside the control housing 23, the two power transmission plates 30 are respectively and electrically connected to a power supply and a power supply spring 36, and a moving assembly for controlling the movement of the power transmission plates 30 is fixedly installed inside the control housing 23.

When the screw moving plate 44 moves to the leftmost end, the push rod 25 is pressed, the push rod 25 and the first moving plate 24 can move in the direction away from the screw moving plate 44 by pressing the push rod 25, then the conductive column 26 is connected with the power transmission plate 30, then the two power transmission plates 30 are communicated with a circuit, after the two power transmission plates 30 are communicated for a while, the connection can be disconnected, when the screw moving plate 44 moves rightwards, the pressing on the push rod 25 is released, and because the elastic connection is formed between the first moving plate 24 and the inner wall of the control shell 23, the first moving plate 24 can move in the direction close to the push rod 25, so that the motor 39 can stop working for a while, and the emulsifier and the amino silicone oil can be injected into the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 better.

Referring to fig. 6, as an embodiment of the present invention, the moving assembly includes a first cavity 27 opened inside the control housing 23, a second lifting plate 28 is movably installed inside the first cavity 27, a trapezoidal column 29 is fixedly installed on one side of the second lifting plate 28, and the trapezoidal column 29 extends into the column control housing 23.

When the first moving plate 24 moves away from the threaded moving plate 44, the trapezoidal column 29 is pushed to move away from the first moving plate 24, then the second lifting plate 28 moves, and the gas at the lower end of the second lifting plate 28 can be pushed into the second cavity 31 by the pipeline by the movement of the second lifting plate 28, so that the conductive column 26 can be better utilized to communicate the circuits of the two power transmission plates 30, and better connection can be achieved.

As an embodiment of the present invention, referring to fig. 10, a second cavity 31 is formed inside a control housing 23, a second moving plate 32 is movably mounted inside the second cavity 31, an extending column 50 is fixedly mounted on one side of the second moving plate 32, the extending column 50 extends into the control housing 23, a power receiving slot is formed on one side of the extending column 50, which is far away from the second moving plate 32, two power transmission plates 30 are fixedly mounted on an inner wall of the power receiving slot, and an extending mechanism for extending a connection time of the two power transmission plates 30 is fixedly mounted inside the control housing 31.

When the gas in the second cavity 31 is increased, the second moving plate 32 is pushed to move toward the direction close to the extending column 50, then the extending column 50 drives the two power transmission plates 30 to move toward the direction close to the conductive column 26, and then the conductive column 26 is utilized to communicate the circuits of the two power transmission plates 30, so that the conductive column 26 can be better utilized to connect the two power transmission plates 30.

Referring to fig. 10, as an embodiment of the present invention, the extension mechanism includes a reduction gear 34 fixedly installed inside the second cavity 31, a reduction rack 33 is fixedly installed on a side of the second moving plate 32 away from the extension column 50, and gear engagement is performed between the reduction rack 33 and the reduction gear 34.

When the first moving plate 24 releases the pressing on the trapezoidal column 29, because the extending column 50 is elastically connected with the inner wall of the second cavity 31, the second moving plate 32 moves towards the direction away from the conductive column 26, and then the speed of the second moving plate 32 moving towards the left is reduced by using the reduction gear 34, so that the communication time of the two power transmission plates 30 can be prolonged, the time of stopping the motor 39 can be prolonged, and the emulsifier and the amino silicone oil can be injected into the emulsifier quantifying tube 4 and the amino silicone oil quantifying tube 5 better.

The working principle is as follows: when the reactor is connected with a power supply, the first electric connecting plate 15 is electrified, then the first electric conducting plate 14 is used for connecting circuits of the two first electric connecting plates 15, then the electromagnet 11 works, then the sound-absorbing iron sheet 13 moves upwards, the iron sheet 13 drives the first lifting plate 12 to move, when the first lifting plate 12 moves to be in contact with the electromagnet 11, the first rack 20 is pushed to move towards the direction far away from the electromagnet 11, then the steering gear 21 drives the second rack 22 to move, then the second rack 22 moves leftwards, the electric conducting block 16 is communicated with the circuits of the two first electric connecting blocks 17, then the circuits of the two first electric connecting blocks 17 are communicated, the electric conducting block 16 is contacted with the first electric connecting block 17, and simultaneously the first electric conducting plate 14 is disconnected with the two first electric connecting plates 15, then the first lifting plate 12 will move downwards slowly and then contact with the two second electricity-connecting blocks 18, connect the circuits of the two second electricity-connecting blocks 18, continue to descend slowly and connect the circuits of the two third electricity-connecting blocks 19, when the first lifting plate 12 moves to the bottom end of the delay shell 10, the first conducting plate 14 will be reused to connect the circuits of the two first electricity-connecting plates 15, then the electromagnet 11 will work, when the two first electricity-connecting blocks 17 are connected, the second electronic valve will work, then water will be injected into the reactor, at the same time, the motor 39 will work, the rotating rod 40 will be driven to rotate, the first conical gear 41 and the second conical gear 43 will drive the reciprocating screw rod 42 to rotate, the thread moving plate 44 will move by the rotation of the reciprocating screw rod 42, when the thread moving plate 44 moves, the feeding sealing plate 45 is pushed to open the feeding hole 3, when the screw thread moving plate 44 moves to the leftmost end, the push rod 25 is pressed, the push rod 25 and the first moving plate 24 can move in the direction away from the screw thread moving plate 44 by pressing the push rod 25, when the first moving plate 24 moves in the direction away from the screw thread moving plate 44, the trapezoidal column 29 is pushed to move in the direction away from the first moving plate 24, then the second lifting plate 28 moves, the gas at the lower end of the second lifting plate 28 can be pushed into the second cavity 31 by using the pipeline by using the movement of the second lifting plate 28, when the gas in the second cavity 31 increases, the second moving plate 32 is pushed to move in the direction close to the extension column 50, then the extension column 50 drives the two power transmission plates 30 to move in the direction close to the conductive column 26, then the conductive column 26 is used to communicate the circuits of the two power transmission plates 30, when the first moving plate 24 releases the pressing on the trapezoidal column 29, because the extending column 50 is elastically connected with the inner wall of the second cavity 31, the second moving plate 32 moves away from the conductive column 26, then the speed of the second moving plate 32 moving leftward is reduced by the reduction gear 34, the communication time of the power transmission plates 30 is increased, when the two power transmission plates are communicated, the power transmission spring 36 is energized, the power transmission spring 36 contracts, then the second conductive plate 37 is pulled to move in the direction close to the power transmission spring 36, the second conductive plate 37 is disconnected from the second power connection plate 38 by the movement of the second conductive plate 37, when the power transmission spring 36 is de-energized, the power transmission spring 36 extends, and then the second conductive plate 37 is reconnected with the second power connection plate 38, so that the connection between the second conductive plate 37 and the second power connection plate 38 can be disconnected, stopping the motor 39 for a period of time, simultaneously sealing the discharge hole 49 by the blanking sealing plate 7, when the emulsifier quantitative tube 4 is full, then continuing to operate the motor 39, moving the threaded moving plate 44 to the right by the operation of the motor 39, then loosening the pressing of the push rod 25, because the first moving plate 24 is elastically connected with the inner wall of the control shell 23, moving the first moving plate 24 to the direction close to the push rod 25, then sealing the feed hole 3, opening the discharge hole 49, injecting the emulsifier and the amino silicone oil in the emulsifier quantitative tube 4 and the amino silicone oil quantitative tube 5 into the reactor, then communicating the circuits of the two second electricity-connecting blocks 18 by the conductive block 16, operating the stirring device 2 by the communication of the second electricity-connecting blocks 18, then stirring the water, the emulsifier and the amino silicone oil in the reactor, when the electricity-connecting blocks 16 communicate the circuits of the two third electricity-connecting blocks 19, the first electronic valve 47 is powered on, the stirred amino silicone oil is discharged out of the reactor, when the first lifting plate 12 moves to the bottom end of the delay shell 10, the first rack 20 is pushed to move towards the direction close to the electromagnet 11, then the steering gear 21 is driven to move towards the right by the steering gear 21, then the first conductive plate 14 is pushed to move towards the right, the first conductive plate 14 is connected with the circuits of the two first conductive plates 15, and then the reactor is continuously controlled to feed, stir and discharge materials.

The electric elements in the document are electrically connected with an external main controller and 220V mains supply through a transformer, the main controller can be a conventional known device controlled by a computer and the like, the product model provided by the invention is only used according to the structural characteristics of the product, the product can be adjusted and modified after being purchased, so that the product is more matched with and accords with the technical scheme of the invention, the product model is a technical scheme of the optimal application of the technical scheme, the product model can be replaced and modified according to the required technical parameters, and the product model is familiar to the technical personnel in the field, so that the technical scheme provided by the invention can clearly obtain the corresponding use effect.

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. An amino silicone oil emulsification reactor comprising:

the reactor comprises a reactor main body (1), wherein a discharge pipe (9) is fixedly installed at the bottom end of the reactor main body (1), a first electronic valve (47) is fixedly installed on the discharge pipe (9), the first electronic valve (47) is electrically connected to a power supply, a stirring device (2) is fixedly installed inside the reactor main body (1), a water inlet (6) is fixedly installed at the top end of the reactor main body (1), a second electronic valve (48) is fixedly installed on the water inlet (6), the second electronic valve (48) is electrically connected to the power supply, a stirring area is formed inside the reactor main body (1), and the power supply is fixedly installed inside the reactor main body (1);

the reactor comprises an emulsifier quantifying pipe (4) and an amino silicone oil quantifying pipe (5), wherein the emulsifier quantifying pipe (4) and the amino silicone oil quantifying pipe (5) are both arranged inside a reactor main body (1), the top ends of the emulsifier quantifying pipe (4) and the amino silicone oil quantifying pipe (5) are both fixedly provided with a feeding hole (3), and the bottom ends of the emulsifier quantifying pipe (4) and the amino silicone oil quantifying pipe (5) are both provided with a discharging hole (49);

and a component assembly;

the method is characterized in that:

and a component assembly capable of quantifying the emulsifier and the amino silicone oil in the stirring area is fixedly arranged in the reactor main body (1).

2. The amino silicone oil emulsion reactor according to claim 1, characterized in that: the weight subassembly is including seting up the inside component groove in reactor main part (1), movable mounting has screw thread movable plate (44) in the component groove, the top fixed mounting of screw thread movable plate (44) has feeding closing plate (45), and feeding closing plate (45) extend to in feed inlet (3), second blanking mouth (46) have been seted up to the direction that feed inlet (3) were kept away from in feeding closing plate (45), the bottom fixed mounting of screw thread movable plate (44) has unloading closing plate (7), and unloading closing plate (7) extend to in discharge gate (49), first blanking mouth (8) have been seted up to the position that unloading closing plate (7) are located discharge gate (49), the inside fixed mounting of reactor main part (1) has the drive assembly that drive screw thread movable plate (44) removed.

3. The amino silicone oil emulsion reactor of claim 1, wherein: the driving component comprises a mounting groove arranged in the reactor main body (1), a motor (39) is fixedly arranged in the mounting groove, the motor (39) is electrically connected to the power supply, the output end of the motor (39) is fixedly provided with a rotating rod (40), a first conical gear (41) is fixedly arranged on the rotating rod (40), a reciprocating screw rod (42) is rotatably arranged at one side of the first conical gear (41), a second bevel gear (43) is fixedly arranged on one side of the reciprocating screw rod (42) close to the first bevel gear (41), and the first bevel gear (41) and the second bevel gear (43) are in gear engagement, the thread moving plate (44) is spirally arranged on the reciprocating screw rod (42), and a time delay assembly for controlling the opening and closing of the first electronic valve (47), the second electronic valve (48) and the motor (39) is fixedly arranged in the reactor main body (1).

4. The amino silicone oil emulsion reactor of claim 1, wherein: the time delay assembly comprises a time delay shell (10) fixedly installed inside a reactor main body (1), an electromagnet (11) is fixedly installed inside the time delay shell (10), the electromagnet (11) is electrically connected to a power source, a first lifting plate (12) is movably installed at one end, far away from the electromagnet (11), of the time delay shell (10), an iron sheet (13) is fixedly installed on one side, close to the electromagnet (11), of the first lifting plate (12), conductive blocks (16) and first conductive plates (14) are movably installed on two sides of the first lifting plate (12) respectively, two first power connection blocks (17), a second power connection block (18) and a third power connection block (19) which are mutually matched with the conductive blocks (16) are fixedly installed inside the time delay shell (10), and the two first power connection blocks (17) are electrically connected to the power source, a second electronic valve (48) and a motor (39) respectively, two second connect electric block (18) electric connection respectively on power and agitating unit (2), two third connect electric block (19) electric connection respectively on power and first electronic valve (47), the inside fixed mounting of time delay shell (10) has two first electricity of connecing board (15) of mutually supporting with first current conducting plate (14), and two first electricity of connecing board (15) electric connection respectively on power and electro-magnet (11), the inside fixed mounting of time delay shell (10) has the shrink subassembly of the shrink of first current conducting plate of control (14) and current conducting block (16) shrink.

5. The amino silicone oil emulsion reactor of claim 1, wherein: the shrink subassembly is including seting up at the inside shrink groove of first lifter plate (12), the inside perpendicular slidable mounting in shrink groove has first rack (20), and first rack (20) extend to the outside of first lifter plate (12), steering gear (21) are installed in the inside rotation of shrink groove, and be gear engagement between first rack (20) and steering gear (21), the parallel movable mounting in inside in shrink groove has second rack (22), and second rack (22) extend to the outside of first lifter plate (12), be gear engagement between second rack (22) and steering gear (21), conducting block (16) and first conductive plate (14) are installed respectively to the both sides of second rack (22).

6. The amino silicone oil emulsion reactor of claim 1, wherein: outage groove (35) have been seted up to the inside of reactor main part (1), the inside fixed mounting of outage groove (35) has second and connects electroplax (38), and second connects electroplax (38) electric connection on motor (39), one side slidable mounting of second and connects electroplax (38) has second current conducting plate (37), second current conducting plate (37) electric connection is on the power, fixed mounting has circular telegram spring (36) between one side that second current conducting plate (37) kept away from second and connect electroplax (38) and the inner wall of outage groove (35), and circular telegram spring (36) electric connection is on the power, the inside fixed mounting of reactor main part (1) has the control mechanism of control circular telegram spring (36) circular telegram.

7. The amino silicone oil emulsion reactor of claim 1, wherein: the control mechanism comprises a control shell (23) fixedly arranged in the reactor main body (1), a first moving plate (24) is movably arranged in the control shell (23), a push rod (25) is fixedly arranged at one side of the first moving plate (24), and the push rod (25) extends into the component groove, the first moving plate (24) is elastically connected with the inside of the control shell (23), a conductive column (26) is fixedly arranged on one side of the first moving plate (24) far away from the push rod (25), two power transmission plates (30) which are matched with the conductive posts (26) are movably arranged in the control shell (23), and the two power transmission plates (30) are respectively and electrically connected with a power supply and a power-on spring (36), and a moving assembly for controlling the movement of the power transmission plate (30) is fixedly arranged in the control shell (23).

8. The amino silicone oil emulsion reactor of claim 1, wherein: remove the subassembly including offering first cavity (27) inside in control housing (23), the inside movable mounting of first cavity (27) has second lifter plate (28), one side fixed mounting of second lifter plate (28) has trapezoidal post (29), and trapezoidal post (29) extends in post control housing (23).

9. The amino silicone oil emulsion reactor of claim 1, wherein: the inside second cavity (31) of having seted up of control housing (23), the inside movable mounting of second cavity (31) has second movable plate (32), one side fixed mounting of second movable plate (32) has extension post (50), and extends in post (50) extends to control housing (23), extend one side of keeping away from second movable plate (32) of post (50) and seted up the electricity connection groove, two electricity transmission board (30) fixed mounting is on the inner wall of electricity connection groove, the inside fixed mounting of accuse second cavity (31) has the extension mechanism of two electricity transmission board (30) connect time of extension.

10. The amino silicone oil emulsion reactor according to claim 1, characterized in that: the extension mechanism comprises a reduction gear (34) fixedly mounted in a second cavity (31), a reduction rack (33) is fixedly mounted on one side, far away from the extension column (50), of the second moving plate (32), and the reduction rack (33) is meshed with the reduction gear (34) through a gear.

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