CN113926348A - Waterproof glue preparation process - Google Patents

Abstract

The invention relates to the technical field of waterproof glue, in particular to a waterproof glue preparation process, which comprises the following raw materials in parts by weight: 30-40 parts of methyl methacrylate, 20-25 parts of butyl acrylate, 15-22 parts of 2-ethylhexyl acrylate and 8-10 parts of an additive, and the method comprises the following steps: s1, preparing materials of methyl methacrylate, butyl acrylate, 2-ethylhexyl acrylate and an additive; s2, mixing and stirring a plurality of materials in sequence according to a proportion by using a processing device; s3, cooling the mixed and stirred materials by using a processing device, and extruding the materials by using high pressure; s4, arrange microthermal storage bucket in to the waterproof glue of extruding and store, at last seal the processing to storing the bucket, processingequipment includes low temperature chamber, stirring chamber, extrusion pipe, pressure pipe and switch component, fixedly connected with stirring chamber on the low temperature chamber, fixedly connected with extrusion pipe on the low temperature chamber, two pressure pipes of fixedly connected with on the low temperature chamber.

Description

Waterproof glue preparation process

Technical Field

The invention relates to the technical field of waterproof glue, in particular to a waterproof glue preparation process.

Background

With the waterproof material well-done by people, people have further inventions of waterproof glue, the waterproof glue characteristic: the waterproof mortar has the advantages of high flexibility, water resistance, moisture insulation, strong cohesive force, strong anti-cracking cohesive force, air permeability, water impermeability, simple and convenient construction, high-efficiency construction, excellent impermeability, strong cohesive force and the like, is suitable for the water resistance and impermeability of buildings with concrete and mortar masonry structures, is particularly suitable for the water resistance of absorptive surfaces such as basements, bathroom floors and wall surfaces, kitchens, balconies and the like, is suitable for the water resistance of buildings with various concrete and masonry structures, is suitable for building parts such as kitchens, toilets, balconies, basements and the like, and is suitable for floor heating system ground waterproof engineering. The prior art can not process the waterproof glue efficiently, a large amount of manpower is needed to complete the processing of the waterproof glue, and the waste of manpower resources is seriously caused.

Disclosure of Invention

The invention aims to provide a waterproof adhesive preparation process, which can be used for efficiently preparing waterproof adhesive.

The purpose of the invention is realized by the following technical scheme:

a waterproof glue preparation process comprises the following steps:

s1, preparing materials of methyl methacrylate, butyl acrylate, 2-ethylhexyl acrylate and an additive;

s2, mixing and stirring a plurality of materials in sequence according to a proportion by using a processing device;

s3, cooling the mixed and stirred materials by using a processing device, and extruding the materials by using high pressure;

s4, discharging the extruded waterproof glue into a low-temperature storage barrel for storage, and finally sealing the storage barrel.

The processing device comprises a low-temperature cavity, a stirring cavity, an extrusion pipe, pressure inlet pipes and a switch component, wherein the stirring cavity is fixedly connected to the low-temperature cavity, the extrusion pipe is fixedly connected to the low-temperature cavity, the two pressure inlet pipes are fixedly connected to the low-temperature cavity, the switch component is fixedly connected to the low-temperature cavity, and the switch component is connected with the stirring cavity in a sliding mode.

Preferably, the switch component includes perpendicular sliding cavity, jam plate and electro-magnet, erects sliding cavity fixed connection and in the low temperature intracavity, erects sliding cavity sliding connection and has the jam plate, jam plate and stirring chamber sliding connection, erects sliding cavity internal fixedly connected with electro-magnet.

Preferably, fixedly connected with gear motor on the stirring chamber rotates on the stirring chamber and is connected with and shelters from the lid, and gear motor is connected with and shelters from the lid meshing transmission, is connected with a plurality of rabbling mechanisms on the stirring chamber.

Preferably, the processing device further comprises a fixed gear ring, the fixed gear ring is fixedly connected to the stirring cavity, and the plurality of stirring mechanisms are in meshing transmission connection with the fixed gear ring

Preferably, the processing device further comprises a concave-convex ring, the concave-convex ring is fixedly connected to the stirring cavity, and the concave-convex ring is in contact with the plurality of stirring mechanisms.

Preferably, processingequipment still includes mixing drum, separation bucket, relief hole and sliding connection component, and mixing drum fixed connection is on the fixed gear circle, the separation bucket is provided with four, and four even fixed connection of separation bucket are on the mixing drum, the relief hole is provided with four groups, and four groups of relief hole are even to be set up on the mixing drum, the sliding connection component is provided with four, and four even fixed connection of sliding connection component are on the mixing drum, and four sliding connection components carry out the shutoff to four groups of relief hole respectively.

Preferably, processingequipment still includes awl shrouding, top backup plate and telescopic link, and sliding connection has the awl shrouding on the blending bin, the top backup plate is provided with four, and four even fixed connection of top backup plate are on the awl shrouding, and telescopic link fixed connection is between blending bin and awl shrouding.

Preferably, the cone sealing plate is designed to be a conical surface structure.

Preferably, rabbling mechanism includes gear shaft and stirring board, has the stirring board through keyway sliding connection on the gear shaft, is provided with spring II between gear shaft and the stirring board, and a plurality of gear shafts all rotate with sheltering from the lid and be connected, and a plurality of gear shafts all are connected with fixed gear circle meshing transmission.

Preferably, the sliding connection component comprises a fixed plate, two lifting sliding columns, a sliding blocking plate and limiting plates, the fixed plate is fixedly connected with the two lifting sliding columns, the sliding blocking plate is connected with the two lifting sliding columns in a sliding mode, the limiting plates are fixedly connected with the lower portions of the two lifting sliding columns, and the four fixed plates and the four limiting plates are fixedly connected with the mixing barrel.

Preferably, the waterproof glue prepared by the waterproof glue preparation process comprises the following raw materials in parts by weight: 30-40 parts of methyl methacrylate, 20-25 parts of butyl acrylate, 15-22 parts of 2-ethylhexyl acrylate and 8-10 parts of an additive.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a waterproof adhesive preparation process of the present invention;

FIG. 2 is a schematic view showing the mixing and stirring of the waterproof glue and the discharge of the embodiment;

FIG. 3 is a cross-sectional view schematically illustrating mixing and stirring of the waterproof glue and discharging of the embodiment;

FIG. 4 is a schematic structural view of the switching element of the present invention;

FIG. 5 is a schematic diagram of an embodiment of mixing and agitating a plurality of materials;

FIG. 6 is a schematic view of a portion of an embodiment of an intensive mixing and stirring of a plurality of materials;

FIG. 7 is a schematic structural view of a multiple material storage proportioned batch addition embodiment;

FIG. 8 is a schematic structural view of an embodiment of a plurality of materials for storage;

FIG. 9 is a schematic structural view of an embodiment of a linked proportional discharge;

FIG. 10 is a schematic structural view of an embodiment of a lift gang switch;

FIG. 11 is a schematic structural view of a slip joint member according to the present invention.

In the figure:

a low temperature chamber 101;

a stir chamber 102;

an extruded tube 103;

a pressure inlet pipe 104;

a vertical sliding cavity 201;

a jam plate 202;

an electromagnet 203;

a reduction motor 301;

a blind cover 302;

a fixed gear ring 303;

a gear shaft 304;

a stirring plate 305;

a concave-convex ring 306;

a mixing tub 401;

a separation tub 402;

a discharge hole 403;

a cone closing plate 501;

a top backup plate 502;

a telescopic rod 503;

a fixed plate 601;

a lifting strut 602;

a sliding closure plate 603;

and a limiting plate 604.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The detailed description below, with reference to the accompanying drawing 1, is a waterproof adhesive preparation process, which comprises the following steps:

s1, preparing materials of methyl methacrylate, butyl acrylate, 2-ethylhexyl acrylate and an additive;

s2, mixing and stirring a plurality of materials in sequence according to a proportion by using a processing device;

s3, cooling the mixed and stirred materials by using a processing device, and extruding the materials by using high pressure;

s4, discharging the extruded waterproof glue into a low-temperature storage barrel for storage, and finally sealing the storage barrel.

The processing device comprises a low-temperature cavity 101, a stirring cavity 102, an extrusion pipe 103, two pressure inlet pipes 104 and a switch component, wherein the stirring cavity 102 is fixedly connected with the low-temperature cavity 101 by welding, the extrusion pipe 103 is fixedly connected on the low-temperature cavity 101 by welding, the two pressure inlet pipes 104 are fixedly connected on the low-temperature cavity 101 by welding, the switch component is fixedly connected on the low-temperature cavity 101 by welding, and the stirring cavity 102 is slidably connected with the switch component.

The device can be used for stirring a plurality of materials in the stirring cavity 102 to mix the materials uniformly, a plurality of falling holes are formed below the stirring cavity 102, after the materials in the stirring cavity 102 are mixed, the materials fall through the falling holes below the stirring cavity and enter the low-temperature cavity 101, a cooling plate is arranged on the outer surface of the low-temperature cavity 101 to accelerate the temperature of the processed waterproof glue, the low-temperature waterproof glue has longer storage time, the two pressure inlet pipes 104 are connected with two superchargers, when the waterproof glue in the low-temperature cavity 101 needs to be discharged, the superchargers connected with the two pressure inlet pipes 104 can be started to transfer pressure into the low-temperature cavity 101, the pressure can be applied to the switch member, the switch member can move upwards to seal and apply the plurality of falling holes in the stirring cavity 102, and the high pressure can also be applied to the waterproof glue in the low-temperature cavity 101, let waterproof glue arrange from extrusion pipe 103 and extrude, and still be provided with the valve on the extrusion pipe 103, utilize the discharge whether there is waterproof glue in the steerable extrusion pipe 103 of valve, extrude the waterproof glue in the low temperature chamber 101 from extrusion pipe 103 through the extruded mode of high pressure and can protect the inside structure of waterproof glue to still can accelerate the discharge of waterproof glue in the low temperature chamber 101.

Referring to fig. 2, 3 and 4, the switching member includes a vertical sliding cavity 201, a blocking plate 202 and an electromagnet 203, the vertical sliding cavity 201 is fixedly connected to the low temperature cavity 101 by welding, the blocking plate 202 is slidably connected to the vertical sliding cavity 201 by a cavity, the stirring cavity 102 and the blocking plate 202 are slidably connected to the column by a hole, and the electromagnet 203 is fixedly connected to the vertical sliding cavity 201 by welding.

The vertical sliding cavity 201 is designed to be square, the vertical sliding cavity 201 can provide a sliding space for the plugging plate 202, the plugging plate 202 can be limited, the plugging plate 202 can only slide up and down, a spring is arranged in the vertical sliding cavity 201, the upper end and the lower end of the spring are respectively fixedly connected with the plugging plate 202 and the low-temperature cavity 101, the elastic force generated by the spring is utilized to act on the plugging plate 202, the plugging plate 202 is in sliding connection with the stirring cavity 102, the sealing treatment of a plurality of falling holes on the stirring cavity 102 is realized, the discharge of a plurality of materials which are not uniformly stirred from the falling holes on the stirring cavity 102 is prevented, when the waterproof glue in the stirring cavity 102 needs to be discharged into the low-temperature cavity 101, the electromagnet 203 is electrified to generate magnetic force, the magnetic force can act on the plugging plate 202 to enable the plugging plate 202 to move downwards, at the moment, the plurality of falling holes on the stirring cavity 102 are in an open state, the waterproof glue in the stirring cavity 102 can enter the low-temperature cavity 101, the realization is stored the processing to the low temperature of waterproof glue, and when the waterproof glue in low temperature chamber 101 was discharged to needs, can be in the high pressure in the low temperature chamber 101, the high pressure can be used on jam plate 202, and at this moment the high pressure can be used on jam plate 202 with the power that the spring in the vertical sliding chamber 201 produced, and this power is greater than electro-magnet 203 and produces magnetic force, and jam plate 202 can the rebound, realizes the shutoff to stirring chamber 102.

According to the detailed description of the attached drawing 5 of the specification, the processing device further comprises a speed reduction motor 301, a shielding cover 302 and a stirring mechanism, the speed reduction motor 301 is fixedly connected to the stirring cavity 102 through welding, the shielding cover 302 is rotatably connected to the stirring cavity 102 through a bearing, the shielding cover 302 is in meshing transmission connection with the speed reduction motor 301, the stirring mechanism is provided with a plurality of stirring mechanisms, and the stirring mechanisms are uniformly connected to the stirring cavity 102 through bearings in a rotating mode.

Fixedly connected with gear I on gear motor 301's the output shaft, gear I through gear motor 301 can drive stirring chamber 102 and rotate around stirring chamber 102, and stirring chamber 102 plays the effect of sheltering from, when stirring chamber 102 takes place to rotate, can drive a plurality of rabbling mechanisms and rotate around the axial lead that shelters from lid 302, let a plurality of rabbling mechanisms stir the processing to the kind of material of stirring in the chamber 102, let the abundant mixing of multiple material be in the same place.

The stirring mechanism comprises a gear shaft 304 and a stirring plate 305, the gear shaft 304 is connected with the stirring plate 305 through a key slot in a sliding mode, a spring II is arranged between the gear shaft 304 and the stirring plate 305, the gear shafts 304 are connected with the shielding cover 302 through bearings in a rotating mode, and the gear shafts 304 are connected with the fixed gear ring 303 in a meshing transmission mode.

When the shielding cover 302 rotates, the gear shafts 304 can be driven to rotate around the axis of the shielding cover 302, so that the stirring plates 305 can stir various materials, when the gear shafts 304 rotate around the axis of the shielding cover 302, the gear shafts 304 can also be meshed with the fixed gear ring 303 for transmission, so as to drive the gear shafts 304 to rotate around the axes of the gear shafts, so that the stirring plates 305 can be driven by two motion modes, when a certain stirring plate 305 is positioned at the concave point of the concave-convex ring 306, the stirring plate 305 can move downwards by utilizing the elastic force generated by the spring II between the gear shafts 304 and the stirring plates 305, and when a certain stirring plate 305 is positioned at the convex point of the concave-convex ring 306, the stirring plate can be extruded by the spring II between the gear shafts 304 and the stirring plates 305 and can move upwards, at this time, the stirring plates 305 can have three motion modes, so as to further realize the stirring treatment of various materials, allowing them to mix thoroughly together.

According to the detailed description of the attached drawings 5 and 7, the processing device further comprises a fixed gear ring 303, the fixed gear ring 303 is fixedly connected to the stirring cavity 102 through welding, and the plurality of stirring mechanisms are in meshing transmission connection with the fixed gear ring 303.

When the stirring chamber 102 rotates, the stirring mechanisms can be driven to rotate around the axis of the shielding cover 302, and when the stirring mechanisms rotate around the axis of the shielding cover 302, the stirring mechanisms can also be meshed with the fixed gear ring 303, so that the stirring mechanisms can also rotate, and at the moment, the stirring mechanisms can rotate around the axis of the shielding cover 302 and can also rotate around the axis of the stirring mechanisms, so that the stirring mechanisms can have a better stirring effect, and various materials can be fully mixed together.

According to the detailed description of the attached fig. 5 and 6, the processing device further comprises a male and female ring 306, the male and female ring 306 is fixedly connected to the stirring chamber 102 through welding, and the male and female ring 306 is in contact with a plurality of stirring mechanisms.

When a plurality of rabbling mechanisms rotate around the axial lead of sheltering from lid 302, a plurality of rabbling mechanisms can contact with unsmooth ring 306, when certain rabbling mechanism is located the concave point of unsmooth ring 306, this rabbling mechanism can the downstream, and when certain rabbling mechanism is located the bump of unsmooth ring 306, this rabbling mechanism can the rebound, let a plurality of rabbling mechanisms rotate around the axial lead of sheltering from lid 302 and take place the pivoted in the axle center around self while, a plurality of rabbling mechanisms also can upper and lower circulation move, further reinforcing carries out the effect of stirring to multiple material.

According to the detailed description of the attached drawings 7, 8, 9 and 11 in the specification, the processing device further comprises a mixing barrel 401, four separating barrels 402, four discharge holes 403 and sliding connection members, the mixing barrel 401 is fixedly connected to the fixed gear ring 303 through welding, the number of the separating barrels 402 is four, the four separating barrels 402 are uniformly fixedly connected to the mixing barrel 401 through welding, the four discharge holes 403 are provided with four groups, the four groups of the discharge holes 403 are uniformly arranged on the mixing barrel 401, the four sliding connection members are provided with four, the four sliding connection members are uniformly fixedly connected to the mixing barrel 401 through welding, and the four sliding connection members respectively block the four groups of the discharge holes 403.

The four materials can be placed in the four separation barrels 402, the four materials in the four separation barrels 402 are discharged through the four groups of discharge holes 403 and enter the mixing barrel 401 respectively, first-step mixing of the four materials is achieved, the four groups of discharge holes 403 can be shielded by the four sliding connection members, only after the four sliding connection members move upwards, the four groups of discharge holes 403 can be opened, the four materials in the four separation barrels 402 can be discharged into the mixing barrel 401 through the four groups of discharge holes 403, the four groups of discharge holes 403 are different in diameter, the materials stored in the four separation barrels 402 can be fixed, the waterproof glue with large component proportion can correspond to the discharge holes 403 with large diameter, the waterproof glue with small component proportion can correspond to the discharge holes 403 with small diameter, and the four materials can be uniformly mixed together in proportion.

The sliding connection component comprises a fixing plate 601, lifting sliding columns 602, sliding blocking plates 603 and limiting plates 604, wherein the fixing plate 601 is fixedly connected with the two lifting sliding columns 602 through welding, the sliding blocking plates 603 are connected with the two lifting sliding columns 602 through holes and columns in a sliding mode, the limiting plates 604 are fixedly connected below the two lifting sliding columns 602 through welding, and the four fixing plates 601 and the four groups of limiting plates 604 are fixedly connected with the mixing barrel 401 through welding.

The fixed plate 601 plays a role of bearing connection and can provide a fixed space for the two lifting sliding columns 602, the two lifting sliding columns 602 can provide a sliding space for the sliding blocking plate 603 and limit the sliding blocking plate 603, the four sliding blocking plates 603 are used for blocking four groups of discharge holes 403, the four groups of limiting plates 604 can provide a limiting space for the four sliding blocking plates 603, when the sliding blocking plates 603 are in contact with the limiting plates 604, the blocking of the discharge holes 403 by the sliding blocking plates 603 can be completed, when the sliding connection member moves upwards, the four sliding blocking plates 603 can be driven to move upwards to discharge materials in the four separation barrels 402, a small amount of materials can be mixed together in proportion each time, when the materials are mixed together in a small amount, the materials can be mixed together more easily, the eight lifting sliding columns 602 are sleeved with springs I, and after the springs I are arranged, the gravity of the sliding blocking plates 603 can be assisted to move downwards, and the downward movement resetting of the sliding blocking plate 603 can be accelerated, so that the four groups of discharge holes 403 can be blocked.

According to the detailed description of the specification, shown in fig. 7, 9 and 10, the processing device further comprises a cone sealing plate 501, four top backup plates 502 and four telescopic rods 503, wherein the cone sealing plate 501 is connected to the mixing barrel 401 through a groove and a long key in a sliding mode, the number of the top backup plates 502 is four, the four top backup plates 502 are evenly connected to the cone sealing plate 501 through welding and fixing, and the telescopic rods 503 are connected between the mixing barrel 401 and the cone sealing plate 501 through welding and fixing.

Awl shrouding 501 plays the effect of shutoff, can block mixing barrel 401, start telescopic link 503, let its relapse stretch out and draw back, when telescopic link 503 stretches to the longest, awl shrouding 501 can be less than mixing barrel 401's below, at this moment, the material in mixing barrel 401 will fall from mixing barrel 401's below, enter into stirring chamber 102, and when telescopic link 503 retracts, awl shrouding 501 can the rebound, and awl shrouding 501 can drive four top backup plates 502 rebound, at this moment, four top backup plates 502 can contact with four sliding connection members, thereby drive four sliding connection member rebound, at this moment, the material that is located in four separation barrels 402 will advance mixing barrel 401 according to the outflow of proportion, and when four top backup plates 502 break away from four sliding connection members, the entering of stopping material, play the effect of regulation and control valve.

The conical closure plate 501 is designed with a conical surface configuration, as described in detail in the specification with reference to fig. 9 and 11.

Awl shrouding 501 is all landing of the equal accessible material on the convenient awl shrouding 501 when the benefit of conical surface structural design, can not have the material to remain on awl shrouding 501.

Claims (10)

1. A waterproof glue preparation process is characterized by comprising the following steps: the method comprises the following steps:

s1, preparing materials of methyl methacrylate, butyl acrylate, 2-ethylhexyl acrylate and an additive;

s2, mixing and stirring a plurality of materials in sequence according to a proportion by using a processing device;

s3, cooling the mixed and stirred materials by using a processing device, and extruding the materials by using high pressure;

s4, discharging the extruded waterproof glue into a low-temperature storage barrel for storage, and finally sealing the storage barrel.

2. The waterproof glue preparation process according to claim 1, characterized in that: the processing device comprises a low-temperature cavity (101), a stirring cavity (102), an extrusion pipe (103), a pressure inlet pipe (104) and a switch component, wherein the stirring cavity (102) is fixedly connected to the low-temperature cavity (101), the extrusion pipe (103) is fixedly connected to the low-temperature cavity (101), the two pressure inlet pipes (104) are fixedly connected to the low-temperature cavity (101), the switch component is fixedly connected to the low-temperature cavity (101), and the switch component is in sliding connection with the stirring cavity (102).

3. The waterproof glue preparation process according to claim 2, characterized in that: the switch component comprises a vertical sliding cavity (201), a blocking plate (202) and an electromagnet (203), the vertical sliding cavity (201) is fixedly connected in the low-temperature cavity (101), the blocking plate (202) is connected in the vertical sliding cavity (201) in a sliding mode, the blocking plate (202) is connected with the stirring cavity (102) in a sliding mode, and the electromagnet (203) is fixedly connected in the vertical sliding cavity (201).

4. The waterproof glue preparation process according to claim 2, characterized in that: fixedly connected with gear motor (301) on stirring chamber (102), rotate on stirring chamber (102) and be connected with and shelter from lid (302), gear motor (301) and shelter from lid (302) meshing transmission and be connected, rotate on stirring chamber (102) and be connected with a plurality of rabbling mechanisms.

5. The waterproof glue preparation process according to claim 4, characterized in that: the stirring cavity (102) is fixedly connected with a fixed gear ring (303), and the fixed gear ring (303) is in meshing transmission connection with the stirring mechanisms.

6. The waterproof glue preparation process according to claim 4, characterized in that: concave-convex rings (306) are fixedly connected to the stirring cavity (102), and the stirring mechanisms are all in contact with the concave-convex rings (306).

7. The waterproof glue preparation process according to claim 5, characterized in that: fixedly connected with mixing drum (401) on fixed gear circle (303), four separation barrel (402) of even fixedly connected with on mixing drum (401), evenly be provided with four groups relief hole (403) on mixing drum (401), four even fixedly connected with slip connection members on mixing drum (401), four slip connection members are respectively to four groups relief hole (403) shutoff.

8. The waterproof glue preparation process according to claim 7, characterized in that: the improved multifunctional mixing barrel is characterized in that a conical sealing plate (501) is connected to the mixing barrel (401) in a sliding mode, four top backup plates (502) are fixedly connected to the conical sealing plate (501), and two ends of a telescopic rod (503) are fixedly connected with the mixing barrel (401) and the conical sealing plate (501) respectively.

9. The waterproof glue preparation process according to claim 8, characterized in that: the cone sealing plate (501) is designed to be a conical surface structure.

10. A waterproof glue prepared by using the waterproof glue preparation process of claim 1, wherein: the waterproof glue comprises the following raw materials in parts by weight: 30-40 parts of methyl methacrylate, 20-25 parts of butyl acrylate, 15-22 parts of 2-ethylhexyl acrylate and 8-10 parts of an additive.

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