CN112892368A

CN112892368A - Multistage mixing and filtration edulcoration equipment that construction process was glued with structure

Info

Publication number: CN112892368A
Application number: CN202110248060.5A
Authority: CN
Inventors: 李涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-07
Filing date: 2021-03-07
Publication date: 2021-06-04

Abstract

The invention relates to the field of building processing, in particular to a multistage mixing and filtering impurity removal device for a structural adhesive for building processing, which comprises: the invention relates to a box, a material control mechanism for controlling the feeding amount, a filtering mechanism for filtering impurities in structural adhesive, a vibrating mechanism for driving the filtering mechanism to vibrate to enable the purified structural adhesive to fall, a heat conducting component for heating and softening the structural adhesive in the filtering mechanism, a first-stage mixing mechanism for primarily mixing and stirring the structural adhesive, a second-stage mixing mechanism for further mixing and stirring the structural adhesive, and a storage mechanism for storing the processed structural adhesive, wherein the storage mechanism is arranged at the bottom end of the inner side of the box and is also positioned below the second-stage mixing mechanism.

Description

Multistage mixing and filtration edulcoration equipment that construction process was glued with structure

Technical Field

The invention relates to the field of building processing, in particular to a multistage mixing and filtering impurity removal device for a structural adhesive for building processing.

Background

The building structural adhesive (hereinafter referred to as structural adhesive) is a structural adhesive material commonly used in buildings, is generally used for mounting glass in building curtain walls and doors and windows, has high adhesive strength, can firmly adhere glass to a metal auxiliary frame, also has good aging resistance, has the main function of bearing compressive, tensile and bending loads, has a large amount of different components in the prior art, but does not have a relatively ideal product, because the structural adhesive acts on the interior of a building, after being implanted into the interior of the building, the actual flowing performance of the structural adhesive is ensured, and the actual quick drying performance of the structural adhesive is ensured, but in the current market, because the actual raw material formula is not scientific enough, and in the actual processing, the actual process is not standard enough, the prepared structural adhesive is caused, the fluidity is poor, the actual fixed telephone time is relatively slow, and the actual product performance and the application convenience are influenced.

The structural adhesive is high in strength, can bear larger load, and has the characteristics of ageing resistance, fatigue resistance, corrosion resistance and the like, the performance is stable in the expected life, and the structural adhesive is suitable for an adhesive for bearing strong structural member bonding.

For traditional preparation building structure glues, often can't make its inside impurity screen out, can't even mix structural adhesive to the structural adhesive intensity after appearing solidifying is not enough, can become sticky when serious, can't solidify the circumstances such as, greatly reduced structural adhesive quality's problem, consequently, need design one kind can multistage mixed structural adhesive to and high-efficient equipment to the internal impurity filtration of structural adhesive.

Disclosure of Invention

For solving above-mentioned technical problem, provide a multistage mixing and filtration edulcoration equipment that structure was glued for building processing, this technical scheme has solved traditional building structure and has glued and have had impurity to and it mixes incompletely to lead to the unqualified problem of quality.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides a multistage mixing and filtration edulcoration equipment of structural adhesive for building processing, includes:

a box body;

the material control mechanism is used for controlling the feeding amount and is arranged at the top of the box body;

the filtering mechanism is used for filtering impurities in the structural adhesive and is arranged at the top end of the inner side of the box body;

the vibrating mechanism is used for driving the filtering mechanism to vibrate so as to enable the structural adhesive after impurity removal to fall down, the vibrating mechanism is arranged in the box body, and the vibrating mechanism is also positioned on the filtering mechanism;

the heat conduction assembly is used for heating and softening the structural adhesive in the filtering mechanism, is arranged in the box body and is also positioned at the side end of the filtering mechanism;

the primary mixing mechanism is used for carrying out primary mixing and stirring on the structural adhesive, is arranged in the box body and is also positioned below the filtering mechanism;

the second-stage mixing mechanism is used for further mixing and stirring the structural adhesive, is arranged in the box body and is also positioned below the first-stage mixing mechanism;

and the storage mechanism is used for storing the structural adhesive after processing, is arranged at the bottom end of the inner side of the box body and is also positioned below the second-stage mixing mechanism.

As a preferred scheme of the multistage mixing and filtering impurity removal equipment for the structural adhesive for building processing,

the box includes:

a base table;

the bottom box is fixedly arranged at the top of the bottom table, the bottom end of the side wall of the bottom box is provided with a drawing outlet, the upper end of the side wall of the bottom box is provided with a first opening and closing door, the first opening and closing door is also provided with two first transparent glass windows, and the first opening and closing door is also provided with a first handle;

the top box is fixedly arranged at the top of the bottom box, a second opening and closing door is arranged on the side wall of the top box, a second transparent glass window is arranged on the second opening and closing door, a second handle is further arranged on the second opening and closing door, and the top box and the bottom box are communicated with each other;

the top cover is fixedly arranged at the top of the top box, and the top of the top cover is also provided with an installation opening for installing the material control mechanism.

accuse material mechanism includes:

the mounting plate is fixedly arranged in the mounting opening of the top cover;

the blanking channel is arranged in the center of the top of the mounting plate and communicated with the inside of the top box;

the top of the blanking channel is provided with a notch, and the bottom of the feeding funnel is clamped in the notch through a circle of clamping plates;

the side wall of the blanking channel is provided with an opening, one end of the material limiting plate is coupled to the upper end of the opening in a shaft mode, and the outer side wall of the material limiting plate is provided with a hinged portion;

one end of the push rod is coupled on the hinge part;

one end of the swing rod is coupled to the free end of the push rod;

the single-shaft motor is used for driving the swing of the swing rod, the free end of the swing rod is fixedly sleeved on the output end of the single-shaft motor, and the single-shaft motor is fixedly arranged at the bottom of the mounting plate.

the filtering mechanism includes:

the top end of the filter box is provided with a feed inlet, the feed inlet is communicated with the bottom end of the blanking channel through a hose, and the bottom end of the filter box is in a through shape;

the middle end of the side wall of the filter box extends inwards to form a clamping groove, the pulling box is movably clamped in the clamping groove, the pulling box is hollow, and the periphery of the pulling box is provided with an upright post respectively;

and the filter plate is sleeved on the four stand columns.

the vibration mechanism includes:

the two rectangular plates are respectively fixed on two sides of the top box, and two buffer springs are respectively connected to the inward side of each rectangular plate and the outer side wall of the filter box;

the cam is arranged between a rectangular plate and the filter box and is rotationally arranged on a shaft connecting seat through a shaft lever;

the vibrating motor is fixedly arranged on the inner side wall of the rectangular plate, and the output end of the vibrating motor is connected with one end of the shaft rod through a belt.

the heat conduction assembly includes:

the heat conducting plate is arranged on the back side of the filter box, and a plurality of heating wires are further arranged on the heat conducting plate along the length direction of the heat conducting plate;

the long plate is arranged between the heat conduction plate and the top box, and two insertion rods penetrate through the long plate at two ends of the heat conduction plate;

two compression springs are arranged and are respectively sleeved on each insertion rod, and two ends of each compression spring are respectively fixed on the heat-conducting plate and the long plate;

and the lifting mechanism is used for attaching the heat-conducting plate to the back side of the filter box to soften the structural adhesive in the filter box, and is arranged at the top of the long plate.

the lifting mechanism comprises:

the top center of the long plate is provided with a threaded part, one end of the pull rod is connected to the threaded part in a threaded manner, the free end of the pull rod penetrates through the top cover and extends upwards, the top of the pull rod is also provided with a square block, and the side wall of the square block is also provided with a convex column;

one end of the poke rod is driven by a rotating motor, the rotating motor is fixedly arranged at the top of the top cover through a machine base, a strip-shaped opening is further formed in the free end of the poke rod, and the poke rod is sleeved on the convex column through the strip-shaped opening.

the first-stage mixing mechanism comprises:

the blanking hopper is arranged below the filter box, and the periphery of the blanking hopper is fixed at the top end of the side wall of the bottom box;

the mixing tank is horizontally arranged below the blanking hopper, two ends of the mixing tank are fixedly arranged in each round opening, the middle end of the top of the mixing tank is provided with a material conveying port, the material conveying port is communicated with the blanking hopper, and the middle end of the bottom of the mixing tank is also provided with a blanking port;

the mixing rod is rotatably arranged in the mixing barrel, the mixing rod and the mixing barrel are coaxial, one end of the mixing rod is driven by a first stirring motor, a spiral stirring blade is further arranged on the mixing rod along the length direction of the mixing rod, and a plurality of through holes are further formed in the spiral stirring blade;

scrape the wall pole, be provided with threely, the three wall pole of scraping evenly sets up in the inner wall of blending tank along the circumferencial direction of mixing beam, and every both ends of scraping the wall pole still all are fixed in on the mixing beam through a connecting rod.

the second grade mixing mechanism includes:

the stirring box is arranged below the mixing barrel, the top end of the stirring box is in an open shape, the bottom of the stirring box is fixed at the top of the bottom platform through a supporting seat, and one side of the bottom of the stirring box is also provided with a blanking port;

the bull stick, the vertical upwards setting in bottom center that the agitator tank was passed to one end, the bull stick still rotates through a second agitator motor, and second agitator motor is fixed to be set up in the bottom of agitator tank, and the length direction along the bull stick on the bull stick still equidistant be equipped with a plurality of puddler.

the storage mechanism comprises:

the top of the base platform is provided with a U-shaped groove, and the storage box is movably clamped in the U-shaped groove.

Compared with the prior art, the invention has the beneficial effects that: when an operator processes the building structural adhesive, firstly, the operator puts the structural adhesive into the filtering mechanism, the quantity of the structural adhesive is controlled by the material control mechanism, the structural adhesive is prevented from being dropped too much, the efficiency of the filtering mechanism for filtering the structural adhesive is reduced, then, the filtering mechanism is heated by the heat conduction assembly, the structural adhesive in the filtering mechanism is softened along with the structural adhesive, the filtering mechanism is driven by the vibrating mechanism to vibrate, the structural adhesive falls out along with the structural adhesive through vibration, impurities in the structural adhesive are left in the filtering mechanism, the fallen structural adhesive flows into the primary mixing mechanism, the primary mixing mechanism carries out primary mixing stirring on the structural adhesive, the primarily stirred structural adhesive flows into the secondary mixing mechanism, the secondary mixing mechanism carries out further stirring on the structural adhesive, the quality of the structural adhesive is greatly improved, and finally, the processed structural adhesive flows into the material storage mechanism to be stored, the invention solves the problem that the traditional building structural adhesive has impurities, and the problem of unqualified quality caused by incomplete mixing of the components improves the quality of the building structural adhesive and strengthens the strength of the building structural adhesive.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic perspective view of a material control mechanism;

FIG. 4 is a partial perspective view of the present invention;

FIG. 5 is a front view of FIG. 4;

FIG. 6 is an exploded view of FIG. 4;

FIG. 7 is a perspective view of a heat conducting assembly;

FIG. 8 is a schematic perspective view of a primary mixing mechanism;

FIG. 9 is a cross-sectional view of a primary mixing mechanism;

fig. 10 is a schematic perspective view of a two-stage mixing mechanism.

The reference numbers in the figures are: the device comprises a bottom platform 1, a bottom box 2, a first opening and closing door 3, a first transparent glass window 4, a first handle 5, a top box 6, a second opening and closing door 7, a second transparent glass window 8, a second handle 9, a top cover 10, a mounting plate 11, a blanking channel 12, a feeding funnel 13, a material limiting plate 14, a push rod 15, a swing rod 16, a single-shaft motor 17, a filter box 18, a feeding hole 19, a hose 20, a drawing box 21, a filter plate 22, a rectangular plate 23, a buffer spring 24, a cam 25, a vibration motor 26, a belt 27, a heat conducting plate 28, a heating wire 29, a long plate 30, a plug rod 31, a compression spring 32, a pull rod 33, a block 34, a convex column 35, a poking rod 36, a rotating motor 37, a strip-shaped port 38, a blanking hopper 39, a mixing barrel 40, a port 41, a blanking port 42, a mixing rod 43, a first stirring motor 44, a spiral stirring blade 45, a through port 46, a wall scraping rod 47, the device comprises a supporting seat 50, a blanking port 51, a rotating rod 52, a second stirring motor 53, a stirring rod 54, a storage box 55 and a U-shaped groove 56.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 10, a multistage mixing and filtering impurity removing device for a structural adhesive for building processing includes:

a box body;

When operating personnel processes building structure and glues, at first, operating personnel drops into the filtering mechanism with the structure glue in, accuse material mechanism carries out the control of volume to the structure glue, it drops into too much to prevent the structure glue, the efficiency that filtering mechanism filtering structure glued slows down, then, heat-conducting component heats filtering mechanism, the structure glue in the filtering mechanism softens thereupon, vibrating mechanism drives the filtering mechanism vibration, the structure glue falls out through the vibration thereupon, impurity in the structure glue is stayed in the filtering mechanism thereupon, the structure glue that falls out flows into in the one-level mixing mechanism, the one-level mixing mechanism stirs its preliminary mixing, structure glue after the preliminary mixing flows into in the second grade mixing mechanism, the second grade mixing mechanism further stirs it thereupon, the quality of structure glue is greatly improved, finally, the structure glue of processing completion flows into and stores in the storage mechanism.

The box includes:

a base table 1;

the bottom box 2 is fixedly arranged at the top of the bottom platform 1, the bottom end of the side wall of the bottom box 2 is provided with a drawing outlet, the upper end of the side wall of the bottom box 2 is provided with a first opening and closing door 3, the first opening and closing door 3 is also provided with two first transparent glass windows 4, and the first opening and closing door 3 is also provided with a first handle 5;

the top box 6 is fixedly arranged at the top of the bottom box 2, a second opening and closing door 7 is arranged on the side wall of the top box 6, a second transparent glass window 8 is arranged on the second opening and closing door 7, a second handle 9 is further arranged on the second opening and closing door 7, and the top box 6 is communicated with the bottom box 2;

and the top cover 10 is fixedly arranged at the top of the top box 6, and the top of the top cover 10 is also provided with an installation opening for installing the material control mechanism.

When operating personnel processes building structure and glues, operating personnel can observe the course of working that the structure glued through every first transparent glass window 4 and second transparent glass window 8, and operating personnel can also open first door 3 and the second door 7 that opens and shuts and clear up equipment, guarantees the life-span of machine.

Accuse material mechanism includes:

the mounting plate 11 is fixedly arranged in the mounting opening of the top cover 10;

the blanking channel 12 is arranged in the center of the top of the mounting plate 11, and the blanking channel 12 is communicated with the inside of the top box 6;

the top of the blanking channel 12 of the feeding funnel 13 is provided with a notch, and the bottom of the feeding funnel 13 is clamped in the notch through a circle of clamping plates;

the side wall of the blanking channel 12 is provided with an opening, one end of the material limiting plate 14 is coupled to the upper end of the opening, and the outer side wall of the material limiting plate 14 is provided with a hinged part;

a push rod 15, one end of which is coupled to the hinge part;

one end of the swing rod 16 is coupled to the free end of the push rod 15;

the single-shaft motor 17 is used for driving the swing of the swing rod 16, the free end of the swing rod 16 is fixedly sleeved on the output end of the single-shaft motor 17, and the single-shaft motor 17 is fixedly arranged at the bottom of the mounting plate 11.

When the amount of structural adhesive falling does not affect the filtering efficiency of the filtering mechanism, therefore, an operator puts the structural adhesive into the blanking channel 12 through the feeding funnel 13, the single-shaft motor 17 drives the swing rod 16 to rotate, the swing rod 16 pushes the push rod 15, the push rod 15 pushes the limit plate 14 to swing, the limit plate 14 controls the size in the blanking channel 12, and the amount of structural adhesive falling is controlled accordingly.

The filtering mechanism includes:

the top end of the filter box 18 is provided with a feed inlet 19, the feed inlet 19 is communicated with the bottom end of the blanking channel 12 through a hose 20, and the bottom end of the filter box 18 is in a through shape;

the middle end of the side wall of the filter box 18 extends inwards to form a clamping groove, the drawing box 21 is movably clamped in the clamping groove, the drawing box 21 is hollow, and the periphery of the drawing box 21 is provided with an upright column respectively;

the filter plate 22 is sleeved on the four upright posts.

When the structure is glued and is fallen down, the structure is glued and is flowed into rose box 18 in, and the structure is glued and is fallen into on filter 22, and operating personnel can glue impurity at the structure and get rid of the back and take out pull box 21, and the operating personnel of being convenient for clears up impurity.

The vibration mechanism includes:

two rectangular plates 23 are arranged, the two rectangular plates 23 are respectively fixed on two sides of the top box 6, and two buffer springs 24 are respectively connected to the inner side of each rectangular plate 23 and the outer side wall of the filter box 18;

the cam 25 is arranged between the rectangular plate 23 and the filter box 18, and the cam 25 is also rotationally arranged on a shaft connecting seat through a shaft lever;

and the vibration motor 26 is fixedly arranged on the inner side wall of the rectangular plate 23, and the output end of the vibration motor 26 is connected with one end of the shaft rod through a belt 27.

When the structural adhesive on the filter plate 22 accelerates to flow downwards, the vibration motor 26 drives the cam 25 to rotate, the cam 25 abuts against the side end of the filter box 18, the filter box 18 vibrates back and forth under the action of each buffer spring 24, and the structural adhesive flows downwards through the filter plate 22.

The heat conduction assembly includes:

a heat conducting plate 28 arranged on the back side of the filtering box 18, wherein a plurality of heating wires 29 are arranged on the heat conducting plate 28 along the length direction of the heat conducting plate 28;

the long plate 30 is arranged between the heat conduction plate 28 and the top box 6, and two insertion rods 31 are arranged at two ends of the heat conduction plate 28 and penetrate through the long plate 30;

two compression springs 32 are arranged, the two compression springs 32 are respectively sleeved on each insertion rod 31, and two ends of each compression spring 32 are respectively fixed on the heat conduction plate 28 and the long plate 30;

and a lifting mechanism for attaching the heat conducting plate 28 to the back side of the filter box 18 to soften the structural adhesive in the filter box 18, wherein the lifting mechanism is arranged on the top of the long plate 30.

When the structural adhesive is located on the filter plate 22, in order to prevent the structural adhesive from being solidified in the filter box 18, the heat conducting plate 28 is heated by the plurality of heating wires 29, and due to the acting force of each compression spring 32, the heat conducting plate 28 always abuts against the side wall of the filter box 18, the heat on the heat conducting plate 28 heats the filter box 18, and the structural adhesive in the filter box 18 is softened along with the heat conducting plate 28, so that the structural adhesive can flow down conveniently.

The lifting mechanism comprises:

a pull rod 33, a threaded part is arranged at the center of the top of the long plate 30, one end of the pull rod 33 is connected to the threaded part in a threaded manner, the free end of the pull rod 33 penetrates through the top cover 10 and extends upwards, a block 34 is arranged at the top of the pull rod 33, and a convex column 35 is arranged on the side wall of the block 34;

one end of the poke rod 36 is driven by a rotating motor 37, the rotating motor 37 is fixedly arranged at the top of the top cover 10 through a machine base, a strip-shaped opening 38 is further arranged at the free end of the poke rod 36, and the poke rod 36 is sleeved on the convex column 35 through the strip-shaped opening 38.

When the filter box 18 can be heated uniformly, therefore, the rotating motor 37 drives the poke rod 36 to rotate, the poke rod 36 pokes the pull rod 33 to move up and down through the strip-shaped opening 38, the pull rod 33 drives the heat conduction plate 28 to move up and down, and the heat conduction plate 28 moves up and down on the side wall of the filter box 18 to heat the filter box 18 uniformly, so that the structural adhesive in the filter box 18 can be softened quickly.

The first-stage mixing mechanism comprises:

a blanking hopper 39 arranged below the filter box 18, wherein the periphery of the blanking hopper 39 is fixed at the top end of the side wall of the bottom box 2;

the mixing barrel 40 is characterized in that two sides of the bottom box 2 are respectively provided with a round opening, the mixing barrel 40 is horizontally arranged below the blanking hopper 39, two ends of the mixing barrel 40 are fixedly arranged in each round opening, the middle end of the top of the mixing barrel 40 is provided with a material conveying opening 41, the material conveying opening 41 is communicated with the blanking hopper 39, and the middle end of the bottom of the mixing barrel 40 is also provided with a material discharging opening 42;

the mixing rod 43 is rotatably arranged in the mixing barrel 40, the mixing rod 43 and the mixing barrel 40 are coaxial, one end of the mixing rod 43 is driven by a first stirring motor 44, a spiral stirring blade 45 is further arranged on the mixing rod 43 along the length direction of the mixing rod 43, and a plurality of through holes 46 are further formed in the spiral stirring blade 45;

the wall scraping rods 47 are three, the three wall scraping rods 47 are uniformly arranged on the inner wall of the mixing barrel 40 along the circumferential direction of the mixing rod 43, and two ends of each wall scraping rod 47 are fixed on the mixing rod 43 through a connecting rod 48.

After the softened structural adhesive flows into the blanking hopper 39, the structural adhesive falls into the mixing barrel 40 through the blanking hopper 39, the first stirring motor 44 drives the mixing rod 43 to rotate, the mixing rod 43 rotates to drive the spiral stirring blade 45 to rotate, the spiral stirring blade 45 performs preliminary mixing and stirring on the structural adhesive, the structural adhesive cannot be conveyed towards one end along with the spiral stirring blade 45 when being stirred by the plurality of through holes 46 on the spiral stirring blade 45, and when the mixing rod 43 rotates, the three wall scraping rods 47 also rotate along with the mixing rod to scrape the inner wall of the mixing barrel 40, so that the structural adhesive is prevented from being attached to the inner wall of the mixing barrel.

The second grade mixing mechanism includes:

the stirring box 49 is arranged below the mixing barrel 40, the top end of the stirring box 49 is open, the bottom of the stirring box 49 is fixed at the top of the base platform 1 through a supporting seat 50, and one side of the bottom of the stirring box 49 is also provided with a blanking port 51;

one end of the rotating rod 52 penetrates through the center of the bottom of the stirring box 49 and is vertically arranged upwards, the rotating rod 52 further rotates through a second stirring motor 53, the second stirring motor 53 is fixedly arranged at the bottom of the stirring box 49, and a plurality of stirring rods 54 are further arranged on the rotating rod 52 at equal intervals along the length direction of the rotating rod 52.

After the primarily mixed structural adhesive falls into the stirring box 49, the second stirring motor 53 drives the rotating rod 52 to rotate, and the stirring rods 54 on the rotating rod 52 perform final mixing and stirring on the structural adhesive.

The storage mechanism comprises:

the storage box 55, the top of base 1 is equipped with a U-shaped groove 56, and the movable joint of storage box 55 is in U-shaped groove 56.

When the structural adhesive that finishes is processed out, the structural adhesive falls into the storage box 55, and the operator is convenient for taking out the structural adhesive by drawing out the storage box 55.

The working principle of the invention is as follows:

the device/apparatus/method realizes the functions of the invention by the following steps, thereby solving the technical problems proposed by the invention:

step one, when an operator processes the building structure adhesive, the operator can observe the processing process of the structure adhesive through each first transparent glass window 4 and each second transparent glass window 8, the operator can also open the first opening and closing door 3 and the second opening and closing door 7 to clean the equipment, the service life of the machine is ensured, and when the filtering efficiency of the filtering mechanism is not affected by the amount of structural adhesive falling, therefore, the operator puts the structural adhesive into the blanking channel 12 through the feeding hopper 13, the single-shaft motor 17 drives the swing rod 16 to rotate, the swing rod 16 pushes the push rod 15, the push rod 15 pushes the limiting plate 14 to swing along with the push rod, the size of the limiting plate 14 in the blanking channel 12 is controlled, and the amount of the structural adhesive falling can be controlled along with the size.

Step two, when the structural adhesive falls down, the structural adhesive flows into the filter box 18 and falls into the filter plate 22, an operator can draw out the drawing box 21 after the impurities of the structural adhesive are removed, so that the operator can clean the impurities, when the structural adhesive is positioned on the filter plate 22, in order to prevent the structural adhesive from being solidified in the filter box 18, a plurality of heating wires 29 heat the heat conduction plate 28, due to the acting force of each compression spring 32, the heat conduction plate 28 always props against the side wall of the filter box 18, the heat on the heat conduction plate 28 heats the filter box 18, the structural adhesive in the filter box 18 is softened along with the heat conduction plate, so that the structural adhesive flows down, when the structural adhesive on the filter plate 22 accelerates the flowing-down speed, the vibration motor 26 drives the cam 25 to rotate, the cam 25 props against the side end of the filter box 18 along with the cam 25, and the filter box 18 vibrates back and forth through the, the structural glue then flows down through the filter plate 22.

Thirdly, when the filter box 18 can be uniformly heated, the rotating motor 37 drives the poke rod 36 to rotate, the poke rod 36 then pokes the pull rod 33 through the strip-shaped opening 38 to move up and down, the pull rod 33 then drives the heat conduction plate 28 to move up and down, the heat conduction plate 28 moves up and down on the side wall of the filter box 18 to uniformly heat the filter box 18, structural adhesive in the filter box 18 is convenient to soften quickly, after the softened structural adhesive flows in the dropping hopper 39, the structural adhesive falls in the mixing barrel 40 through the dropping hopper 39, the first stirring motor 44 drives the mixing rod 43 to rotate along with the first stirring motor 44, the mixing rod 43 rotates to drive the spiral stirring blade 45 to rotate, the spiral stirring blade 45 primarily mixes and stirs the structural adhesive, the structural adhesive cannot be conveyed towards one end along with the spiral stirring blade 45 when being stirred by the plurality of through openings 46 on the spiral stirring blade 45, when the mixing rod 43 rotates, the three wall scraping rods 47 also rotate to rub against the inner wall of the mixing, preventing the structural adhesive from adhering to the inner wall thereof.

Step four, after the structural adhesive of initial mixing falls into agitator tank 49, second agitator motor 53 drives bull stick 52 and rotates, and a plurality of puddler 54 carries out final mixing stirring to the structural adhesive thereupon on the bull stick 52, and when the structural adhesive that processing was accomplished falls out, the structural adhesive fell in storage box 55, and operating personnel is convenient for take out the structural adhesive through taking storage box 55 out.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a multistage mixture and filtration edulcoration equipment that construction processing was glued, its characterized in that includes:

a box body;

2. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 1,

the box includes:

a base (1);

the bottom box (2) is fixedly arranged at the top of the bottom table (1), the bottom end of the side wall of the bottom box (2) is provided with a drawing outlet, the upper end of the side wall of the bottom box (2) is provided with a first opening and closing door (3), the first opening and closing door (3) is also provided with two first transparent glass windows (4), and the first opening and closing door (3) is also provided with a first handle (5);

the top box (6) is fixedly arranged at the top of the bottom box (2), a second opening and closing door (7) is arranged on the side wall of the top box (6), a second transparent glass window (8) is arranged on the second opening and closing door (7), a second handle (9) is further arranged on the second opening and closing door (7), and the top box (6) is communicated with the bottom box (2);

the top cover (10) is fixedly arranged at the top of the top box (6), and the top of the top cover (10) is also provided with an installation opening for installing the material control mechanism.

3. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 2,

accuse material mechanism includes:

the mounting plate (11) is fixedly arranged in the mounting opening of the top cover (10);

the blanking channel (12) is arranged in the center of the top of the mounting plate (11), and the blanking channel (12) is communicated with the inside of the top box (6);

the feeding funnel (13), the top of the blanking channel (12) is provided with a notch, and the bottom of the feeding funnel (13) is clamped in the notch through a circle of clamping plates;

the side wall of the blanking channel (12) is provided with an opening, one end of the material limiting plate (14) is connected to the upper end of the opening in a shaft mode, and the outer side wall of the material limiting plate (14) is provided with a hinged portion;

a push rod (15) with one end connected to the hinge part;

one end of the swing rod (16) is coupled to the free end of the push rod (15) through a shaft;

the single-shaft motor (17) is used for driving the swing of the swing rod (16), the free end of the swing rod (16) is fixedly sleeved on the output end of the single-shaft motor (17), and the single-shaft motor (17) is fixedly arranged at the bottom of the mounting plate (11).

4. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 3,

the filtering mechanism includes:

the top end of the filter box (18) is provided with a feed inlet (19), the feed inlet (19) is communicated with the bottom end of the blanking channel (12) through a hose (20), and the bottom end of the filter box (18) is in a through shape;

the middle end of the side wall of the filter box (18) extends inwards to form a clamping groove, the drawing box (21) is movably clamped in the clamping groove, the drawing box (21) is hollow, and the periphery of the drawing box (21) is provided with an upright post respectively;

and the filter plate (22) is sleeved on the four upright posts.

5. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 4,

the vibration mechanism includes:

two rectangular plates (23) are arranged, the two rectangular plates (23) are respectively fixed on two sides of the top box (6), and two buffer springs (24) are respectively connected and arranged on the inner side of each rectangular plate (23) and the outer side wall of the filter box (18);

the cam (25) is arranged between the rectangular plate (23) and the filter box (18), and the cam (25) is also arranged on a shaft connecting seat in a rotating way through a shaft lever;

and the vibration motor (26) is fixedly arranged on the inner side wall of the rectangular plate (23), and the output end of the vibration motor (26) is connected with one end of the shaft rod through a belt (27).

6. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 5,

the heat conduction assembly includes:

the heat conduction plate (28) is arranged on the back side of the filter box (18), and a plurality of heating wires (29) are further arranged on the heat conduction plate (28) along the length direction of the heat conduction plate (28);

the long plate (30) is arranged between the heat conduction plate (28) and the top box (6), and two insertion rods (31) are arranged at two ends of the heat conduction plate (28) through the long plate (30);

two compression springs (32) are arranged, the two compression springs (32) are respectively sleeved on each insertion rod (31), and two ends of each compression spring (32) are respectively fixed on the heat-conducting plate (28) and the long plate (30);

and the lifting mechanism is used for attaching the heat conduction plate (28) to the back side of the filter box (18) to soften the structural adhesive in the filter box (18), and is arranged at the top of the long plate (30).

7. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 6,

the lifting mechanism comprises:

the top center of the long plate (30) is provided with a threaded part, one end of the pull rod (33) is connected to the threaded part in a threaded manner, the free end of the pull rod (33) penetrates through the top cover (10) to extend upwards, the top of the pull rod (33) is also provided with a square block (34), and the side wall of the square block (34) is also provided with a convex column (35);

one end of the poke rod (36) is driven by a rotating motor (37), the rotating motor (37) is fixedly arranged at the top of the top cover (10) through a machine base, the free end of the poke rod (36) is also provided with a strip-shaped opening (38), and the poke rod (36) is sleeved on the convex column (35) through the strip-shaped opening (38).

8. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 6,

the first-stage mixing mechanism comprises:

the blanking hopper (39) is arranged below the filter box (18), and the periphery of the blanking hopper (39) is fixed at the top end of the side wall of the bottom box (2);

the mixing tank comprises a mixing tank (40), wherein round openings are formed in two sides of a bottom box (2), the mixing tank (40) is arranged below a blanking hopper (39) in a horizontal state, two ends of the mixing tank (40) are fixedly arranged in each round opening, a material conveying opening (41) is formed in the middle end of the top of the mixing tank (40), the material conveying opening (41) is communicated with the blanking hopper (39), and a blanking opening (42) is formed in the middle end of the bottom of the mixing tank (40);

the mixing rod (43) is rotatably arranged in the mixing barrel (40), the mixing rod (43) and the mixing barrel (40) are coaxial, one end of the mixing rod (43) is driven by a first stirring motor (44), a spiral stirring blade (45) is further arranged on the mixing rod (43) along the length direction of the mixing rod (43), and a plurality of through holes (46) are further formed in the spiral stirring blade (45);

scrape wall pole (47), be provided with threely, three wall pole (47) of scraping evenly set up in the inner wall of blending tank (40) along the circumferencial direction of mixing rod (43), and every both ends of scraping wall pole (47) still all are fixed in on mixing rod (43) through a connecting rod (48).

9. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 8,

the second grade mixing mechanism includes:

the stirring box (49) is arranged below the mixing barrel (40), the top end of the stirring box (49) is open, the bottom of the stirring box (49) is fixed to the top of the base platform (1) through a supporting seat (50), and one side of the bottom of the stirring box (49) is also provided with a blanking port (51);

the bottom center that bull stick (52), one end passed agitator tank (49) sets up vertically upwards, and bull stick (52) still rotates through a second agitator motor (53), and second agitator motor (53) are fixed to be set up in the bottom of agitator tank (49), and the length direction along bull stick (52) on bull stick (52) still equidistant is equipped with a plurality of puddler (54).

10. The multistage mixing and filtering impurity removing device for the structural adhesive for building processing as claimed in claim 9,

the storage mechanism comprises:

the top of the storage box (55) and the bottom platform (1) is provided with a U-shaped groove (56), and the storage box (55) is movably clamped in the U-shaped groove (56).