CN109321014B - Environment-friendly high-molecular waterproof coating and production process and equipment thereof - Google Patents

Abstract

The invention belongs to the technical field of waterproof coatings, and particularly relates to an environment-friendly high-molecular waterproof coating, and a production process and equipment thereof. The invention aims to provide an environment-friendly high-molecular waterproof coating and a production process and equipment thereof, which can achieve the effect of effectively producing the environment-friendly high-molecular waterproof coating by specially preparing the waterproof coating and adding special stirring equipment. The invention has the advantages of reasonable and effective structure of the stirring machine, convenient and quick stirring operation, thorough stirring, good effect, good safety protection effect of the equipment, good service performance of the produced waterproof coating and high environmental protection degree.

Description

Environment-friendly high-molecular waterproof coating and production process and equipment thereof

Technical Field

The invention belongs to the technical field of waterproof coatings, and particularly relates to an environment-friendly high-molecular waterproof coating, and a production process and equipment thereof.

Background

The waterproof coating is a coating with a waterproof function after a specific component is added, and is generally used for waterproof engineering positions such as walls and the like. On the other hand, the existing waterproof coatings on the market at present have the problems of insufficient waterproof performance in different degrees and insufficient environmental protection, and a stirrer device which is convenient to use and is suitable for stirring is also lacked in the production process of the coatings.

Chinese patent with patent publication No. CN105482704A and publication No. 2016.04.13 discloses an environment-friendly waterproof coating, which is prepared from the following raw materials in parts by weight: 7-9 parts of talcum powder, 5-8 parts of titanium dioxide, 11-15 parts of polyvinyl alcohol, 4-6 parts of sodium hexametaphosphate, 14-17 parts of asphalt, 3-5 parts of mica powder, 4-6 parts of sodium hydroxide, 5-8 parts of kaolin, 2-3 parts of vinyl triethoxysilane, 3-5 parts of dipropylene glycol butyl ether, 4-7 parts of polyethylene glycol, 9-11 parts of simethicone and 25-30 parts of deionized water.

However, the waterproof coating material disclosed in the patent has the problem of poor use effect.

Disclosure of Invention

The invention aims to provide an environment-friendly high-molecular waterproof coating and a production process and equipment thereof, which can achieve the effect of effectively producing the environment-friendly high-molecular waterproof coating by specially preparing the waterproof coating and adding special stirring equipment. The invention has the advantages of reasonable and effective structure of the stirring machine, convenient and quick stirring operation, thorough stirring, good effect, good safety protection effect of the equipment, good service performance of the produced waterproof coating and high environmental protection degree.

The technical scheme adopted by the invention for solving the problems is as follows: an environment-friendly high-molecular waterproof coating comprises the following components in parts by weight: 7-9 parts of talcum powder, 15-18 parts of potassium titanate, 11-15 parts of polyvinyl alcohol, 4-6 parts of polyvinyl acetate, 9-15 parts of titanium dioxide electrolytic stone, 5-8 parts of kaolin, 2-3 parts of vinyltriethoxysilane, 2-4 parts of perchloroethylene resin, 4-7 parts of polyethylene glycol, 2-4 parts of dioctyl phthalate and 35-40 parts of deionized water.

A production process of an environment-friendly high-molecular waterproof coating sequentially comprises the following steps:

s1, stirring, heating and mixing all the materials to obtain the early-stage waterproof coating;

s2, cooling and curing the early-stage waterproof coating to obtain the final environment-friendly high-molecular waterproof coating.

A stirrer device for manufacturing environment-friendly polymer waterproof coating comprises a stirrer barrel body with an open upper end, a discharging pipe arranged on the stirrer barrel body, a cover plate arranged on the stirrer barrel body, a stirring column unit which is arranged on the cover plate and is used for stirring operation in a vertical turning mode, a mounting plate arranged on the cover plate, an electromagnet unit which is arranged on the lower surface of the mounting plate and is used for driving the stirring column unit in a manner of attraction lifting in the power-off state and repulsion pushing-down in the power-on state, a contact conductive unit which is arranged on the upper surface of the mounting plate and is used for controlling the circuit of the electromagnet unit to be switched on and off, a rotating unit which is arranged on the upper surface of the mounting plate and is used for sequentially and alternately triggering the contact conductive unit in a manner of pressing down in the rotating process, and a protection unit arranged on the stirrer barrel body, the protection unit comprises a mounting column arranged on the outer ring surface of the stirring machine barrel body, a protection iron ring arranged on the mounting column and sleeved on the stirring machine barrel body, an annular rubber protection sleeve wound on the protection iron ring, bonding strips arranged on the upper side and the lower side of the opening of the annular rubber protection sleeve, and a magnet piece embedded in the bonding strips and used for performing magnetic attraction and fixation on the protection iron ring.

The further preferred technical scheme is as follows: the stirring column unit is in including pegging graft the setting cylinder on the apron, set up hollow stirring leaf on the cylinder anchor ring face, set up on the apron lower surface and be used for the block spacing the L type orifice plate of cylinder, and set up the cylinder upper end and be used for receiving electromagnet unit's repulsion and the permanent magnet piece of attraction effect, a plurality of stirring column unit is in set up according to even circumference arrangement mode on the apron.

The further preferred technical scheme is as follows: the electromagnet unit comprises an iron core, a spiral groove and a spiral coil, wherein the iron core is arranged on the lower surface of the mounting plate in a bonding mode, the spiral groove is formed in the surface of the iron core ring, the spiral coil is wound on the spiral groove in an embedding mode, and the spiral coil is connected with the contact conductive unit through a wire.

The further preferred technical scheme is as follows: contact conductive element is including setting up base piece on the mounting panel upper surface sets up mounting groove on the base piece sets up direct current dry battery in the mounting groove sets up fixed conductive part on the mounting groove side sets up on the base piece upper surface and stride across the compressive deformation conductive part of mounting groove, and set up the base piece with wire chamber on the mounting panel.

The further preferred technical scheme is as follows: the compression deformation conductive part comprises a conductive strip, two sliding grooves, limiting plates, sliding blocks, a mounting sleeve, an inserting column and a pair of permanent magnet sheets, wherein the two ends of the conductive strip are arranged on the upper surface of the base block and are positioned at the two sides of the mounting groove, the two sliding grooves are respectively arranged on the upper surface of the base block and are close to the mounting position of the conductive strip, the limiting plates are arranged on the two sides of the sliding grooves, the sliding blocks are arranged in the sliding grooves, the mounting sleeve is arranged on the sliding blocks and is positioned between the two limiting plates, the inserting column is arranged on the mounting sleeve, the U-shaped groove body is arranged on the inserting column and is used for limiting and clamping with the conductive strip, and the permanent magnet sheets are arranged on the inner bottom surface of the mounting sleeve and the lower end surface of the inserting column and are used for tightly tightening by jacking up the U-shaped groove body when the mounting sleeve slides and controlling the conductive, the conductive strip is connected with one electrode of the direct current dry battery through a lead.

The further preferred technical scheme is as follows: the fixed conductive part comprises a base plate arranged on the side face of the mounting groove and a conductive plate which is bonded on the base plate and is connected with the electromagnet unit through a wire, and the conductive strip is arranged in the position above the conductive plate in parallel.

The further preferred technical scheme is as follows: the rotary unit is including setting up gear motor on the mounting panel upper surface, be used for the second direct current dry battery of gear motor power supply sets up rotor plate on the gear motor, and set up and be in both ends position department on the rotor plate lower surface and through pushing down and then crooked electrically conductive strip mode in order to be used for with the electrically conductive post that contacts carries out the electric conduction of current conducting plate.

The further preferred technical scheme is as follows: the lower end of the pushing column is hemispherical.

The invention achieves the effect of effectively producing the environment-friendly high-polymer waterproof coating by specially preparing the waterproof coating and adding special stirring equipment. The invention has the advantages of reasonable and effective structure of the stirring machine, convenient and quick stirring operation, thorough stirring, good effect, good safety protection effect of the equipment, good service performance of the produced waterproof coating and high environmental protection degree.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the construction of a blender apparatus according to the present invention.

Fig. 3 is a schematic view of the position structure of the bonding strip and the magnet piece in the present invention.

FIG. 4 is a schematic view of the position structure of the agitation column unit of the present invention.

Fig. 5 is a schematic view of a position structure of the electromagnet unit of the present invention.

Fig. 6 is a schematic diagram of the position structure of the contact conductive unit in the present invention.

FIG. 7 is a schematic view of the position structure of the conductive part under pressure deformation in the present invention.

FIG. 8 is a schematic view of the use of the deformed conductive portion of the present invention.

Fig. 9 is a schematic view of the position structure of the rotating unit in the present invention.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in the accompanying drawings 1, 2, 3, 4, 5, 6, 7, 8 and 9, an environment-friendly polymer waterproof coating comprises the following components by weight: 7-9 parts of talcum powder, 15-18 parts of potassium titanate, 11-15 parts of polyvinyl alcohol, 4-6 parts of polyvinyl acetate, 9-15 parts of titanium dioxide electrolytic stone, 5-8 parts of kaolin, 2-3 parts of vinyltriethoxysilane, 2-4 parts of perchloroethylene resin, 4-7 parts of polyethylene glycol, 2-4 parts of dioctyl phthalate and 35-40 parts of deionized water.

In the embodiment, specific material components and proportions are adopted, so that the produced waterproof coating has the advantages of good waterproof effect and high environmental protection degree, wherein the potassium titanate, the polyvinyl alcohol and the titanium dioxide electrolyte stone which account for large specific amounts all have the advantage of small environmental pollution damage degree.

A production process of an environment-friendly high-molecular waterproof coating sequentially comprises the following steps:

s1, stirring, heating and mixing all the materials to obtain the early-stage waterproof coating;

s2, cooling and curing the early-stage waterproof coating to obtain the final environment-friendly high-molecular waterproof coating.

In the embodiment, the production process is only improved and specially made in the stirrer equipment, and the operation and process parameters of other equipment are the same as those of the prior art.

The utility model provides a mixer equipment for making environment-friendly polymer waterproof coating, includes the open mixer staving 11 in upper end, and sets up discharging pipe 12 on the mixer staving 11: the stirring device further comprises a cover plate 1 arranged on the stirring machine barrel body 11, a stirring column unit 2 which is arranged on the cover plate 1 and is used for stirring operation in a vertical turning mode, an installation plate 3 arranged on the cover plate 1, an electromagnet unit 4 which is arranged on the lower surface of the installation plate 3 and is used for driving the stirring column unit 2 in an attraction lifting mode when power is off and a repulsion pushing mode when power is on, a contact conductive unit 5 which is arranged on the upper surface of the installation plate 3 and is used for controlling the circuit of the electromagnet unit 4 to be switched on and off, a rotating unit 6 which is arranged on the upper surface of the installation plate 3 and is used for sequentially and alternately triggering the contact conductive unit 5 in a pressing mode during rotation, and a protection unit 8 arranged on the stirring machine barrel body 11, wherein the protection unit 8 comprises an installation column 801 arranged on the outer annular surface of the stirring machine barrel body 11, the protective iron ring 802 is arranged on the mounting column 801 and sleeved on the stirring machine barrel body 11, the annular rubber protective sleeve 803 is wound on the protective iron ring 802, the bonding strips 804 are arranged on the upper side and the lower side of the opening of the annular rubber protective sleeve 803, and the magnet piece 805 is embedded in the bonding strips 804 and used for performing magnetic attraction and fixation on the protective iron ring 802.

In this embodiment, a plurality of stirring column units 2 perform the up-and-down movement in their respective vertical spaces, stir the materials, do not interfere with each other, and can increase the effective stirring area as much as possible, thereby finally achieving the purpose of thorough stirring.

On the other hand, the electromagnet unit 4 has two working modes of attraction lifting and repulsion pushing down for the stirring column unit 2, so that the stirring column unit 2 can be effectively and alternately lifted, the situation that the stirring column unit 2 cannot be lifted up after being lifted down is avoided, and the single stirring column unit 2 is ensured to have the advantage of continuous stirring. In addition, the rotating unit 6 sequentially triggers the contact conductive unit 5 in the rotating process, so that the electromagnet unit 4 is sequentially electrified to switch the attraction lifting and repulsion pushing-down states, and finally all the stirring column units 2 can sequentially and continuously stir up and down, thereby ensuring thorough and effective stirring.

Wherein the protection unit 8 has the following advantages:

firstly, the protective iron ring 802 surrounds the agitator tank 11 for a circle, and the annular rubber protective sleeve 803 has the advantages of moderate texture and good protective effect, so that people can hit the annular rubber protective sleeve 803 in an accident, the respective protection purpose of people and agitator equipment is achieved, the direct hitting on the iron agitator tank 11 is avoided, and the basic protective effect is achieved;

secondly, the annular rubber protection sleeve 803 is rolled inwards on the protection iron ring 802 to complete the installation operation, and the bonding strip 804 enables the annular rubber protection sleeve 803 to have a first heavy bonding effect, and the magnet piece 805 embedded in the bonding strip 804 enables the annular rubber protection sleeve 803 to have a second heavy magnetic fixing effect, so that the annular rubber protection sleeve 803 has the advantage of stable installation;

thirdly, the inner side of the annular rubber protective sleeve 803 is opened for integral disassembly and assembly, and a space is reserved for the mounting column 801, so that the stability of the integral structure of the protection unit 8 is ensured.

Stirring post unit 2 is including pegging graft the setting and being in cylinder 201 on the apron 1, set up hollow stirring leaf 202 on the cylinder 201 anchor face, set up and be used for the block spacing on the 1 lower surface of apron L type orifice plate 203 of cylinder 201, and set up and be in cylinder 201 upper end is used for receiving electromagnet unit 4's repulsion and attraction's permanent magnet piece 204, a plurality of stirring post unit 2 is in set up according to even circumference arrangement mode on the apron 1. The electromagnet unit 4 comprises an iron core 401 which is arranged on the lower surface of the mounting plate 3 in a bonding mode, a spiral groove 402 which is arranged on the annular surface of the iron core 401, and a spiral coil 403 which is wound on the spiral groove 402 in an embedded mode, wherein the spiral coil 403 is connected with the contact conductive unit 5 through a lead.

In this embodiment, the iron core 401 has a dual function, when the solenoid 403 is not energized, the iron core is configured to perform magnetic attraction with the permanent magnet block 204, so as to attract the whole stirring column unit 2 to a higher position, which is also an initial state, after the solenoid 403 is energized, the solenoid 403 is spirally regulated by a right hand, and generates a repulsive magnetic force repelling the permanent magnet block 204 according to a specific winding direction, at this time, the iron core 401 is only configured to increase an effect of an electromagnetic effect, so as to push the stirring column unit 2 downward, thereby completing one stirring operation.

When the column mixer unit 2 is located the minimum, hollow stirring leaf 202 self buoyancy is great, slowly floats, and this in-process of permanent magnet piece 204 is the outage state, permanent magnet piece 204 upwards is close to behind the iron core 401, the attraction magnetic force of iron core 401 department can upwards act on together with buoyancy, finally just takes wholly column mixer unit 2 gets back to initial higher level, has guaranteed column mixer unit 2 has the advantage of lasting stirring.

On the other hand, the L-shaped hole plate 203 is used for horizontally limiting and fixing the cylinder 201 to prevent the cylinder 201 from inclining, and the spiral groove 402 is used for clamping and fixing the spiral coil 403 to prevent the spiral coil 403 from falling off.

The contact conductive unit 5 includes a base block 501 provided on the upper surface of the mounting plate 3, a mounting groove 502 provided on the base block 501, a dc dry battery 503 provided in the mounting groove 502, a fixed conductive part 504 provided on the side of the mounting groove 502, a pressure-deformed conductive part 505 provided on the upper surface of the base block 501 and crossing the mounting groove 502, and a wire cavity 506 provided on the base block 501 and the mounting plate 3.

In this embodiment, the contact conductive unit 5 is the only open circuit position on the circuit of the solenoid 403, the compressive deformation conductive part 505 and the fixed conductive part 504 are kept in the normal state of disconnection, the rotation unit 6 is triggered to conduct electricity, the solenoid 403 can be electrified, the stirring column unit 2 can be turned and stirred downwards, the contact conductive unit 5 has the effects of automatically recovering the normal state of disconnection and triggering conduction, and finally the stirring column unit 2 can be lifted and lowered alternately to ensure effective stirring.

The compression deformation conductive part 505 comprises a conductive strip 505a with two ends arranged on the upper surface of the base block 501 and located at two sides of the mounting groove 502, two sliding grooves 505b respectively arranged on the upper surface of the base block 501 and close to the mounting end of the conductive strip 505a, limiting plates 505c arranged on two sides of the sliding grooves 505b, a sliding block 505d arranged in the sliding groove 505b, a mounting sleeve 505e arranged on the sliding block 505d and located between the two limiting plates 505c, a plug column 505f arranged on the mounting sleeve 505e, a U-shaped groove 505g arranged on the plug column 505f and used for limiting and clamping with the conductive strip 505a, and a U-shaped groove 505g arranged on the inner bottom surface of the mounting sleeve 505e and the lower end surface of the plug column 505f, and used for tightening and lifting up and down controlling the conductive strip 505a when the mounting sleeve 505e slides A pair of permanent magnet pieces 505h for adjusting a contact time with the fixed conductive portion 504, and the conductive strip 505a is wire-connected to one electrode of the dc dry battery 503. The electrically conductive fixed part 504 includes a base plate 504a disposed on the side of the mounting groove 502, and an electrically conductive plate 504b adhesively disposed on the base plate 504a and wire-connected to the electromagnet unit 4, and the electrically conductive strip 505a is disposed in parallel at a position above the electrically conductive plate 504 b.

In this embodiment, the method for using the compression-deformable conductive part 505 and the advantages thereof are as follows:

first, in an initial state, the two sliding blocks 505d are pressed and fixed by the conductive strip 505a at the respective sliding grooves 505b, and the conductive strip 505a is also jacked up by the pair of permanent magnet pieces 505h and clamped on the U-shaped groove 505g, at which time the conductive strip 505a is parallel to and separated from the conductive plate 504b below;

secondly, after the rotating unit 6 rotates onto the conductive strip 505a, the trajectory of the rotating unit is arc-shaped, the pushing deformation force is certainly insufficient when the rotating unit is in sliding contact and slides out, the conductive strip 505a can be pressed down to deform and contact the conductive plate 504b when the arc-shaped trajectory of the whole contact is closer to the middle part, at this time, the downward deformation amplitude of the conductive strip 505a is enough to press the conductive plate 504b, then the whole circuit is connected, and the solenoid 403 is electrified to work;

thirdly, the closer the sliding pushing track of the rotating unit 6 on the conductive strip 505a is to the middle, the greater the downward deformation of the conductive strip 505a, so that only the central portion of the sliding push track can be contacted for conduction, when the sliding block 505d, together with the U-shaped groove 505g, slides close to each other, the upward lifting width of the permanent magnet piece 505h increases, the conductive strip 505a is in a state of being steeper in gradient, higher and shorter in upper plane, tighter in overall tension, and farther from the conductive plate 504b, at this time, the length of the effective press-down contact in the sliding pushing track of the rotating unit 6 in the same rotating state is shorter, the energizing repulsion time of the solenoid coil 403 is shorter, and the maximum downward turning depth of the stirring rod unit 2 is reduced, namely the switching mode from the solid line state to the dotted line state in fig. 6 is realized;

fourthly, in summary, the farther the two sliding blocks 505d are away from the U-shaped groove 505g, the larger the turning amplitude of the stirring column unit 2 is; the closer the flip width is, the smaller the flip width is, which ultimately makes the compressively deformed conductive part 505 have the dual advantages of controlling the on/off and adjusting the flip width;

the rotating unit 6 includes a reduction motor 601 provided on the upper surface of the mounting plate 3, a second dc dry cell 602 for supplying power to the reduction motor 601, a rotating plate 603 provided on the reduction motor 601, and pushing posts 604 provided at both end positions on the lower surface of the rotating plate 603 and for making conductive contact with the conductive plate 504b by pushing down and bending the conductive strip 505 a. The lower end of the pushing column 604 is hemispherical.

In this embodiment, the rotation operation of the rotation unit 6 is used to sequentially trigger all the contact conductive units 5, the electromagnet units 4 and the stirring column units 2, when the pushing column 604 is effectively pushed downward on the conductive strip 505a and pressed on the conductive plate 504b, the electromagnet units 4 repel to push the stirring column units 2 downward, and when the pushing column 604 slides on the conductive strip 505a but the pushing amplitude is not enough to contact the conductive plate 504b or later, the stirring column units 2 lose repelling power, perform inertia downward again by buoyancy, and rise by attraction when approaching the iron core 401, to complete the stirring operation of stirring, and the rotation unit 6 enables all the stirring column units 2 to continuously stir, thereby ensuring the continuity of the whole stirrer.

In addition, the pressing effect of the pushing column 604 is determined by the bending elasticity of the rotating plate 603 itself, during a considerable number of effective times of use, the rotating height of the pushing column 604 remains unchanged, that is, when the height elasticity of the conductive strip 505a itself is unchanged, the effective pressing amplitude of the pushing column 604 is also unchanged, the pushing column 604 slides in and out from the side edge of the conductive strip 505a, only the middle area may push the pressing and trigger the contact between the conductive strip 505a and the conductive plate 504b, and then the conductive strip 505a ascends for adjustment, so that the effective area is smaller, and the amplitude adjustment mode is met.

Finally, the waterproof coating prepared by the material proportioning and the full stirring is obviously improved in waterproof sealing performance and material overall strength compared with the existing product.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (7)

1. The utility model provides a mixer equipment for making environment-friendly polymer waterproof coating, includes open mixer staving (11) in upper end, and sets up discharging pipe (12) on mixer staving (11), its characterized in that: the stirring device is characterized by further comprising a cover plate (1) arranged on the stirring machine barrel body (11), a stirring column unit (2) which is arranged on the cover plate (1) and used for stirring operation in a vertical turning mode, a mounting plate (3) arranged on the cover plate (1), an electromagnet unit (4) which is arranged on the lower surface of the mounting plate (3) and used for driving the stirring column unit (2) in a manner of attracting and lifting when power is off and repelling and pushing down when power is on, a contact conductive unit (5) which is arranged on the upper surface of the mounting plate (3) and used for controlling the circuit on-off of the electromagnet unit (4), a rotating unit (6) which is arranged on the upper surface of the mounting plate (3) and used for sequentially and alternately triggering the contact conductive unit (5) in a manner of pushing down in the rotating process, and a protection unit (8) arranged on the stirring machine barrel body (11), the protection unit (8) comprises an installation column (801) arranged on the outer ring surface of the stirring machine barrel body (11), a protection iron ring (802) arranged on the installation column (801) and sleeved on the stirring machine barrel body (11), an annular rubber protection sleeve (803) wound on the protection iron ring (802), bonding strips (804) arranged on the upper side edge and the lower side edge of an opening of the annular rubber protection sleeve (803), and a magnet piece (805) embedded in the bonding strips (804) and used for performing magnetic attraction and fixation on the protection iron ring (802);

contact conductive element (5) are including setting up base piece (501) on mounting panel (3) upper surface sets up mounting groove (502) on base piece (501), sets up direct current dry battery (503) in mounting groove (502), sets up fixed conductive part (504) on mounting groove (502) side sets up on base piece (501) upper surface and stride across the compressive deformation conductive part (505) of mounting groove (502), and set up base piece (501) with wire chamber (506) on mounting panel (3).

2. The stirring equipment for manufacturing environment-friendly polymer waterproof coating according to claim 1, wherein: stirring post unit (2) are including pegging graft the setting cylinder (201) on apron (1), set up hollow stirring leaf (202) on the cylinder (201) anchor face, set up and be used for the block spacing on apron (1) lower surface L type orifice plate (203) of cylinder (201), and set up and be in cylinder (201) upper end is used for receiving permanent magnet piece (204) of the repulsion and attraction effect of electromagnet unit (4), a plurality of stirring post unit (2) are in set up according to even circumference arrangement mode on apron (1).

3. The stirring equipment for manufacturing environment-friendly polymer waterproof coating according to claim 1, wherein: electromagnet unit (4) are in including bonding setting iron core (401) on mounting panel (3) lower surface, set up spiral groove (402) on the iron core (401) anchor ring face to and the embedding coiling is in spiral coil (403) on spiral groove (402), spiral coil (403) with contact conductive element (5) carry out the wire and connect.

4. The stirring equipment for manufacturing environment-friendly polymer waterproof coating according to claim 1, wherein: the compression deformation conductive part (505) comprises a conductive strip (505 a) with two ends arranged on the upper surface of the base block (501) and positioned at two sides of the mounting groove (502), two sliding grooves (505 b) respectively arranged on the upper surface of the base block (501) and close to the mounting end position of the conductive strip (505 a), limiting plates (505 c) arranged on two sides of the sliding grooves (505 b), a sliding block (505 d) arranged in the sliding groove (505 b), a mounting sleeve (505 e) arranged on the sliding block (505 d) and positioned between the two limiting plates (505 c), a plug-in post (505 f) arranged on the mounting sleeve (505 e), a U-shaped groove body (505 g) arranged on the plug-in post (505 f) and used for limiting and clamping with the conductive strip (505 a), and a conductive strip (505 f) passing through the inner bottom surface of the mounting sleeve (505 e) and the lower end surface of the plug-in post (505 f) When the mounting sleeve (505 e) slides, a pair of permanent magnet sheets (505 h) which are used for adjusting the contact time with the fixed conductive part (504) in a mode of jacking the U-shaped groove body (505 g) to tighten and lifting the conductive strip (505 a) are controlled, and the conductive strip (505 a) is connected with one electrode of the direct current dry battery (503) through a lead.

5. The stirring apparatus for producing environment-friendly polymer waterproof coating material as claimed in claim 4, wherein: the fixed conductive part (504) comprises a base plate (504 a) arranged on the side surface of the mounting groove (502), and a conductive plate (504 b) which is arranged on the base plate (504 a) in an adhesion manner and is in wire connection with the electromagnet unit (4), wherein the conductive strip (505 a) is arranged in parallel at a position above the conductive plate (504 b).

6. The stirring apparatus for producing environment-friendly polymer waterproof coating material as claimed in claim 5, wherein: the rotating unit (6) comprises a speed reducing motor (601) arranged on the upper surface of the mounting plate (3), a second direct current dry battery (602) used for supplying power to the speed reducing motor (601), a rotating plate (603) arranged on the speed reducing motor (601), and pushing columns (604) which are arranged at the positions of two ends of the lower surface of the rotating plate (603) and are used for conducting contact with the conducting plate (504 b) in a mode of downwards pushing and bending the conducting strip (505 a).

7. The stirring apparatus for producing environment-friendly polymer waterproof coating material as claimed in claim 6, wherein: the lower end of the pushing column (604) is hemispherical.

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