CN114347251A - Lime water and congeal thick liquid's compounding device for building - Google Patents

Abstract

The invention relates to the technical field of mixing equipment for building construction, in particular to a mixing device for lime slurry and condensed slurry for building, which comprises an underframe, a mixing barrel and a stirring device, wherein the top end of the mixing barrel is provided with a feeding end cover with a feeding port, the bottom end of the mixing barrel is sleeved with a receiving hopper with a discharging port, the receiving hopper is connected with the underframe through an elastic part, the stirring device comprises a spiral auger, a sleeve and a stirring mechanism, the sleeve is fixedly arranged on the spiral auger through a plurality of fixing rods, gaps are reserved between the upper end and the lower end of the sleeve and between the feeding end cover and the receiving hopper, the underframe is also provided with a vibrating device, and the underframe is also provided with a driving device for synchronously driving the spiral auger and the vibrating device, so that the uniform degree of mixing between the lime slurry and the condensed slurry is improved through the synchronous driving of the driving device and the vibrating mechanism, the discharge rate of the mixture is accelerated.

Description

Lime water and congeal thick liquid's compounding device for building

Technical Field

The invention relates to the technical field of mixing equipment for building construction, in particular to a mixing device for lime slurry and setting slurry for building.

Background

The building construction in-process is usually used to congeal thick liquids, congeal thick liquids class reactant and lime thick liquid mixing reaction after, can accelerate the condensation rate after lime thick liquid wall painting, consequently this type of compounding device is widely used by the building construction industry, because the lime material has great stickness, when its compounding finishes discharging downwards, can leave a large amount of residual excess stock in the material cabin, will produce extravagantly when can not fully be utilized, when adopting pure hourglass hopper-shaped mixing cabin compounding, though can discharge the material is whole, but during simplex position formula compounding pole stirring material, stirring rate is lower, the material that is located hopper cavity formula compounding cabin bottom region is because of keeping away from the compounding pole, the compounding is not abundant, the compounding quality is relatively poor.

The currently disclosed Chinese patent CN202011152541.8 is a mortar coagulation mixing device for building construction, which comprises an upright post, a receiving cabin, a fluted disc mechanism, a mixing mechanism, a scraping mechanism and a vibrating and patting mechanism, wherein the top of the upright post is provided with a circular mixing cabin, the bottom of the mixing cabin is provided with a motor, the motor is provided with a driving gear, the driving gear extends into the mixing cabin, the mixing cabin is internally provided with the fluted disc mechanism, the driving gear drives the fluted disc mechanism to rotate, and the mixing cabin comprises an annular rotating cabin arranged in the middle of a cabin cavity and a circle of discharge holes arranged on the bottom surface of the cabin body; the receiving cabin is of a bucket cavity structure, a circle of spring seats are arranged on the annular top surface of the receiving cabin, the receiving cabin is connected to the bottom of the mixing cabin through the spring seats on the inner cavity wall and can perform vertical compression action, the receiving cabin is used for receiving and taking slurry discharged from the discharge hole, and the receiving cabin is provided with a discharge pipe used for continuously discharging the slurry downwards after the slurry is received and taken; the material mixing mechanism comprises three parts, the three parts are in meshing transmission with the fluted disc mechanism, when the fluted disc mechanism rotates, the three parts are driven to mix and stir materials in the material mixing cabin, the fluted disc mechanism comprises a fluted disc rotating in the rotating cabin and four baffle arms fixed on the top surface of the fluted disc, and the driving gear drives the fluted disc to rotate in an angle mode so as to enable the four baffle arms on the top surface of the fluted disc to rotate synchronously; the scraping mechanisms are arranged at four positions, and the fluted disc mechanism drives the scraping mechanisms to compress when rotating and scrapes and cleans the bottom surface of the inner cavity of the mixing cabin; the scraping mechanism comprises four bent spring rods fixed on the inner wall of the mixing cabin through a welding plate and scraping plates sleeved on the bent spring rods, the scraping plates are pressed on the scraping plates when the blocking arms rotate in a corner mode, the scraping plates are forced to move along the arc lines of the bent spring rods and scrape and clean the bottom surface of an inner cavity of the mixing cabin, each scraping plate corresponds to one discharge hole, a discharge port communicated with the mixing cabin is formed between every two adjacent disk teeth of the fluted disc, a circle of annular groove is further formed in the inner wall of the mixing cabin, and the scraping plates are assembled in the annular groove through sliding rails; the vibration beating mechanism is eight parts which are connected to the bottom surface of the connecting cabin through a hinged seat, the scraping mechanism is in driving connection with the vibration beating mechanism, and when the scraping mechanism acts, the scraping mechanism presses to the vibration beating mechanism in an intermittent mode so that the vibration beating mechanism is in intermittent vibration motion with the bottom surface of the connecting cabin.

According to above-mentioned patent, this patent is when lime thick liquid with congeal the thick liquid stirring, fluted disc mechanism is in and connects the under-deck, along with lime thick liquid with congeal pouring of thick liquid can be attached to fluted disc mechanism, lead to the unable normal operating of compounding mechanism, consequently, need one kind can guarantee lime thick liquid and congeal also can make things convenient for the compounding device of off-the-shelf quick ejection of compact when the thick liquid normally stirs.

Disclosure of Invention

Based on this, it is necessary to provide a mixing device for lime slurry and setting slurry for building, which improves the uniformity of mixing between the lime slurry and the setting slurry and accelerates the discharge rate of the mixture by synchronously driving the stirring device and the vibrating mechanism through the driving device.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

the invention provides a mixing device of lime mortar and condensed mortar for construction, which comprises an underframe, a mixing barrel arranged on the underframe and a stirring device arranged in the mixing barrel, wherein the top end of the mixing barrel is provided with a feeding end cover with a feeding port, the bottom end of the mixing barrel is sleeved with a receiving funnel with a discharging port, the material receiving funnel is connected with the bottom frame through an elastic piece, the stirring device comprises a spiral auger coaxially and rotatably arranged in the mixing barrel, a sleeve coaxially sleeved on the spiral auger and a stirring mechanism arranged on the outer wall of the sleeve, the sleeve is fixedly arranged on the spiral auger through a plurality of fixed rods, gaps are reserved between the upper end and the lower end of the sleeve and between the material feeding end cover and the material receiving funnel, the bottom frame is also provided with a vibrating device for driving the material receiving funnel to shake, and a driving device for synchronously driving the spiral flood dragon and the vibrating device is also arranged on the bottom frame.

Preferably, the lower pot head of spiral flood dragon is equipped with a bearing, and the inner circle of bearing is fixed on the axostylus axostyle of spiral flood dragon, and the outer lane of bearing is fixed on the chassis, and the lower extreme of flood dragon still fixes the cover and is equipped with a fixed cover, and the lower extreme of fixed cover is equipped with a first bevel gear, and the side meshing of first bevel gear is equipped with a second bevel gear, and second bevel gear passes through a first axostylus axostyle pivoted setting on a frame to drive arrangement installs on the frame.

Preferably, the vibrating device comprises a rotary table, the rotary table is arranged on the base through a second shaft rod in a rotating mode, the rotating direction of the rotary table is parallel to the rotating direction of the second bevel gear, the surface of the rotary table is further provided with a hammering mechanism used for driving the material receiving hopper to shake, and the hammering direction of the hammering mechanism faces the material receiving hopper.

Preferably, the driving device comprises a first driven gear and a second driven gear, the first driven gear is fixedly sleeved on the first shaft rod, the second driven gear is fixedly sleeved on the second shaft rod, a driving gear is further arranged between the first driven gear and the second driven gear, the first driven gear and the second driven gear are respectively meshed on the driving gear, the driving gear is arranged on the base in a rotating mode, and the base is further provided with a rotating motor used for driving the driving gear to rotate.

Preferably, the beating mechanism comprises an eccentric wheel coaxially arranged on the rotary table, a beating member arranged on the eccentric wheel and a stressed member arranged at the bottom of the material receiving hopper, a sliding sleeve is fixedly arranged on the base, the sliding sleeve and the spiral dragon are coaxial, the beating member and the stressed member are both positioned in the sliding sleeve, and the beating member beats the stressed member towards the material receiving hopper.

Preferably, the striking member is a cylindrical striking hammer capable of sliding in the sliding sleeve, the eccentric wheel is provided with an eccentric shaft, the eccentric shaft is sleeved with a push-pull rod, the surface of the striking hammer is provided with a hinged portion, and the other end of the push-pull rod is hinged to the hinged portion of the striking hammer.

Preferably, the stress member is a stress hammer with the same structure as the striking hammer, the stress hammer can slide in the sliding sleeve, the bottom of the feeding hopper is fixedly provided with a connecting frame extending to the sliding sleeve, and the stress hammer is fixed on the connecting frame.

Preferably, rabbling mechanism is including a plurality of along telescopic circumferencial direction evenly distributed's vertical retort and along the equidistant puddler of the length direction of every vertical retort, the inside of compounding bucket is equipped with a plurality of rotatory ring along its axis direction equidistant, all have the fixture block on every rotatory ring, still set up on the inner wall of compounding bucket and supply rotatory ring to pass through fixture block pivoted ring channel, still be equipped with the first pole of scraping of a plurality of between a plurality of rotatory ring, every is first to scrape the pole and all laminates in the inner wall of compounding bucket, every is first to scrape the lower extreme of pole and still all extends a second along the inner wall that connects the material funnel and scrape the pole, and every puddler still all is equipped with a shifting block towards the first tip of scraping the pole.

Preferably, the elastic component has a plurality ofly, and a plurality of elastic components are along connecing the circumferencial direction evenly distributed of material funnel, and the elastic component specifically is a shell fragment that is protruding state, and the shell fragment is the bar structure, and the both ends of shell fragment are inserted respectively and are established in a card strip that has the bayonet socket, and every card strip is all fixed on the chassis, and the bulge of every shell fragment is all contradicted in the topside that connects the material funnel towards connecing the bulge of material funnel and every shell fragment.

Preferably, the dog-house department of throwing the material end cover is equipped with one and keeps off the charging tray, keeps off the charging tray and is the taper structure, keeps off the pyramis of charging tray and keeps off the coaxial line between charging tray and sleeve and the dog-house towards the top, and the diameter that keeps off the charging tray equals telescopic diameter, keeps off the charging tray and can move along the axis direction of dog-house on throwing the material end cover to still be equipped with a hoist mechanism that is used for driving the removal of fender charging tray on throwing the material end cover.

Compared with the prior art, the beneficial effect of this application is:

1. this application is passed through drive arrangement and to agitating unit and vibration mechanism's synchronous drive, has realized also making the off-the-shelf quick ejection of compact after mixing when lime thick liquid and congealing the thick liquid intensive mixing, has improved the even degree of mixing between lime thick liquid and the congealing thick liquid for off-the-shelf ejection of compact speed after the mixture.

2. This application has realized the rotation of spiral flood dragon through the cooperation between first bevel gear and the second bevel gear and through drive arrangement to realized that rabbling mechanism stirs lime thick liquid and the incessant of congealing the thick liquid, improved the stirring effect between lime thick liquid and the congealing the thick liquid.

3. This application drives the motion of beating the mechanism through the carousel, has realized the incessant shake of connecing the material funnel to realized the lime thick liquid after the mixture and the quick discharge of coagulating mud for arrange material speed.

4. This application has realized the synchronous rotation of primary shaft pole and secondary shaft pole through the rotation of driving motor drive driving gear and the cooperation between driving gear and first driven gear and the second driven gear to the rotation of spiral flood dragon and the shake of connecing the material funnel have been realized in step.

5. This application drives the motion of beating the piece through the eccentric wheel, has realized beating the piece and has beaten the beating of beating the piece to the atress piece in the sliding sleeve to realized the atress piece and driven the upper and lower vibration that connects the material funnel, improved the discharge rate after lime thick liquid and the thick liquid of congealing mixes.

6. This application scrapes the setting of pole through first pole of scraping and second, has realized scraping mixing barrel inner wall and connecing scraping of material funnel inner wall residue, has avoided the waste of clout, has also improved the discharge efficiency of mixture.

7. This application drives the motion that keeps off the charging tray through hoist mechanism, has realized the normal mixture between lime thick liquid and the thick liquid that congeals, avoids lime thick liquid and congeals thick liquid and blocks up the dog-house and follow the circumstances of dog-house blowout.

Drawings

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

FIG. 2 is a right side view of the present application;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is an enlarged schematic view at B of FIG. 3;

FIG. 5 is an enlarged schematic view at C of FIG. 3;

FIG. 6 is a partial perspective view of the present application;

FIG. 7 is a front view of FIG. 6;

FIG. 8 is an exploded view of the perspective structure of FIG. 6;

FIG. 9 is a schematic perspective view of the mixing bowl and the stirring device and the driving device;

FIG. 10 is an enlarged schematic view at D of FIG. 9;

FIG. 11 is a schematic perspective view of the drive device and the vibration mechanism;

fig. 12 is a front view of fig. 11.

The reference numbers in the figures are:

1-a chassis;

2-a mixing barrel; 2 a-feeding end cover; 2a 1-dog house; 2a 2-catch tray; 2a3 — a lifting mechanism; 2 b-a receiving funnel; 2b 1-elastic member; 2b 11-shrapnel; 2b 12-card bar; 2b 2-outlet;

3-a stirring device; 3 a-spiral flood dragon; 3a 1-bearing; 3a 2-fixation sleeve; 3a3 — first bevel gear; 3a4 — second bevel gear; 3a 5-first shaft; 3a 6-stand; 3 b-a sleeve; 3b 1-fixation bar; 3 c-a stirring mechanism; 3c 1-vertical bar; 3c 11-stirring bar; 3c 12-pusher block; 3c 2-rotating ring; 3c 21-cartridge; 3c22 — first wiper bar; 3c 23-second wiper bar;

4-a drive device; 4 a-a first driven gear; 4 b-a second driven gear; 4 c-a drive gear; 4 d-rotating electrical machine;

5-a vibration device; 5 a-a turntable; 5 b-a second shaft; 5 c-a hammering mechanism; 5c 1-eccentric wheel; 5c 2-beater; 5c 21-hammer; 5c 22-push-pull rod; 5c 3-force-bearing member; 5c 31-force hammer; 5c 32-connecting frame; 5c 4-sliding sleeve.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-9, the present application provides:

a mixing device of lime slurry and condensed slurry for construction comprises an underframe 1, a mixing barrel 2 arranged on the underframe 1 and a stirring device 3 arranged in the mixing barrel 2, wherein the top end of the mixing barrel 2 is provided with a feeding end cover 2a with a feeding port 2a1, the bottom end of the mixing barrel 2 is sleeved with a receiving funnel 2b with a discharging port 2b2, the receiving funnel 2b is connected with the underframe 1 through an elastic piece 2b1, the stirring device 3 comprises a spiral dragon 3a coaxially and rotatably arranged in the mixing barrel 2, a sleeve 3b coaxially sleeved on the spiral dragon 3a and a stirring mechanism 3c arranged on the outer wall of the sleeve 3b, the sleeve 3b is fixedly arranged on the spiral dragon 3a through a plurality of fixing rods 3b1, gaps are reserved between the upper end and the lower end of the sleeve 3b and the feeding end cover 2a and the receiving funnel 2b, the underframe 1 is also provided with a vibrating device 5 for driving the receiving funnel 2b, and a driving device 4 for synchronously driving the spiral flood dragon 3a and the vibrating device 5 is also arranged on the bottom frame 1.

Based on the above embodiment, the technical problem that this application wants to solve is how to guarantee to mix completely and convenient quick ejection of compact in lime thick liquid and the coagulating basin mixing process. Therefore, the lime slurry and the condensed slurry are poured through the feeding port 2a1 on the feeding end cover 2a, the driving device 4 drives the spiral flood dragon 3a to rotate along with the pouring of the lime slurry and the condensed slurry, the vibration mechanism drives the material receiving funnel 2b to shake along with the driving of the driving device 4, the stirring mechanism 3c is driven when the spiral flood dragon 3a rotates, the stirring mechanism 3c mixes the lime slurry and the condensed slurry along with the rotation of the driving device 4, the lime slurry and the condensed slurry can be conveyed upwards from the sleeve 3b along the spiral flood dragon 3a in the stirring process until the lime slurry and the condensed slurry flow out from the upper end of the sleeve 3b, the stirring mechanism 3c continues to mix the lime slurry and the condensed slurry, the lime slurry and the condensed slurry are repeatedly stirred and mixed in a circulating reciprocating mode, and finally, the discharging port 2b2 of the material receiving funnel 2b is opened after the mixing of the lime slurry and the condensed slurry is finished, along with the continuous shaking of the receiving hopper 2b, the mixed finished product is rapidly discharged through the discharge hole 2b 2.

Further, as shown in fig. 4:

the lower end of the spiral flood dragon 3a is sleeved with a bearing 3a1, the inner ring of the bearing 3a1 is fixed on the shaft rod of the spiral flood dragon 3a, the outer ring of the bearing 3a1 is fixed on the underframe 1, the lower end of the spiral flood dragon 3a is also provided with a fixing sleeve 3a2 by the fixing sleeve 3a2, the lower end of the fixing sleeve 3a2 is provided with a first bevel gear 3a3, the side of the first bevel gear 3a3 is engaged with a second bevel gear 3a4, the second bevel gear 3a4 is arranged on a machine base 3a6 through the rotation of a first shaft rod 3a5, and the driving device 4 is arranged on the machine base 3a 6.

Based on the above embodiments, the technical problem that the present application intends to solve is how the spiral flood dragon 3a is driven by the driving device 4. Therefore, the first shaft lever 3a5 rotates on the base 3a6 by driving the first shaft lever 3a5 by the driving device 4, the second bevel gear 3a4 rotates along with the rotation of the first shaft lever 3a5, and the first bevel gear 3a3 drives the fixing sleeve 3a2 to rotate and drive the spiral auger 3a to rotate due to the meshing between the first bevel gear 3a3 and the second bevel gear 3a4, so that the stirring mechanism 3c also stirs the lime slurry and the condensed slurry along with the rotation of the spiral auger 3a, and the lime slurry and the condensed slurry are also mixed in a circulating reciprocating manner along with the spiral auger 3 a.

Further, as shown in fig. 4:

the vibrating device 5 comprises a rotating disc 5a, the rotating disc 5a is rotatably arranged on the base 3a6 through a second shaft 5b, the rotating direction of the rotating disc 5a is parallel to the rotating direction of the second bevel gear 3a4, a hammering mechanism 5c for driving the receiving hopper 2b to shake is further arranged on the surface of the rotating disc 5a, and the hammering direction of the hammering mechanism 5c faces the receiving hopper 2 b.

Based on the above embodiments, the technical problem that the present application intends to solve is how to drive the shaking of the receiving hopper 2b by the vibration device 5 driven by the driving device 4. Therefore, the second shaft lever 5b is driven by the driving device 4, the second shaft lever 5b rotates on the base 3a6 along with the second shaft lever 5b, the rotating disc 5a rotates along with the second shaft lever 5b, when the rotating disc 5a rotates, the hammering mechanism 5c on the rotating disc 5a hammers the bottom end of the material receiving funnel 2b along with the rotating disc, the material receiving funnel 2b shakes up and down along with the rotating disc under the action of the elastic piece 2b1, and finally, the lime slurry and the condensed slurry mixed in the material receiving funnel 2b are quickly discharged from the discharge hole 2b 2.

Further, as shown in fig. 4, 11 and 12:

the driving device 4 comprises a first driven gear 4a and a second driven gear 4b, the first driven gear 4a is fixed with a sleeve 3a2 and is arranged on the first shaft rod 3a5, the second driven gear 4b is fixed with a sleeve 3a2 and is arranged on the second shaft rod 5b, a driving gear 4c is further arranged between the first driven gear 4a and the second driven gear 4b, the first driven gear 4a and the second driven gear 4b are respectively engaged on the driving gear 4c, the driving gear 4c is rotatably arranged on the base 3a6, and a rotating motor 4d for driving the driving gear 4c to rotate is further arranged on the base 3a 6.

Based on the above-mentioned embodiments, the technical problem that the present application intends to solve is how the driving device 4 simultaneously drives the rotation of the first shaft 3a5 and the second shaft 5 b. For this reason, this application is through the drive of rotating electrical machines 4d, and driving gear 4c rotates thereupon, because meshing between first driven gear 4a and second driven gear 4b and the driving gear 4c, consequently, first driven gear 4a and second driven gear 4b drive first axostylus axostyle 3a5 and second axostylus axostyle 5b respectively and rotate, spiral flood dragon 3a and vibrating device 5 have finally carried out synchronous operation.

Further, as shown in fig. 4:

the hammering mechanism 5c comprises an eccentric wheel 5c1 coaxially arranged on the rotating disc 5a, a hammering piece 5c2 arranged on the eccentric wheel 5c1 and a force receiving piece 5c3 arranged at the bottom of the material receiving hopper 2b, a sliding sleeve 5c4 is fixedly arranged on the machine base 3a6, the sliding sleeve 5c4 is coaxial with the spiral auger 3a, the hammering piece 5c2 and the force receiving piece 5c3 are both positioned in the sliding sleeve 5c4, and the hammering piece 5c2 hammers the force receiving piece 5c3 towards the material receiving hopper 2 b.

Based on the above-mentioned embodiments, the technical problem that the present application intends to solve is how the hammering mechanism 5c completes the vibration of the receiving hopper 2b by the rotation of the rotating disc 5 a. Therefore, according to the application, after the rotating disc 5a rotates, the eccentric wheel 5c1 rotates along with the rotating disc 5a, after the eccentric wheel 5c1 rotates, the beating piece 5c2 is arranged on the eccentric wheel 5c1, so that the beating piece 5c2 performs eccentric motion along with the eccentric wheel 5c1 under the action of the eccentric wheel 5c1, as the beating piece 5c2 hits on the stress piece 5c3, the stress piece 5c3 is pushed upwards, the receiving hopper 2b moves upwards together, and as the beating piece 5c2 is far away from the stress piece 5c3, the stress piece 5c3 naturally slides downwards in the sliding sleeve 5c4 due to the gravity of the receiving hopper 2b, and the receiving hopper 2b also vibrates upwards and downwards.

Further, as shown in fig. 4:

the striking member 5c2 is specifically a cylindrical striking hammer 5c21, the striking hammer 5c21 can slide in the sliding sleeve 5c4, the eccentric wheel 5c1 is provided with an eccentric shaft, the eccentric shaft is sleeved with a push-pull rod 5c22, the surface of the striking hammer 5c21 is provided with a hinged part, and the other end of the push-pull rod 5c22 is hinged to the hinged part of the striking hammer 5c 21.

According to the above embodiment, after the eccentric wheel 5c1 rotates, since one end of the push-pull rod 5c22 is hinged to the eccentric shaft of the eccentric wheel 5c1, the push-pull rod 5c22 pushes the striking hammer 5c21 to slide in the sliding sleeve 5c4 along with the rotation of the eccentric wheel 5c1, and the striking hammer 5c21 strikes on the force receiving member 5c3 to drive the force receiving member 5c3 to move upwards along with the back-and-forth sliding of the striking hammer 5c21 in the sliding sleeve 5c 4.

Further, as shown in fig. 4:

the stress piece 5c3 is specifically a stress hammer 5c31 which has the same structure as the striking hammer 5c21, the stress hammer 5c31 can slide in the sliding sleeve 5c4, the bottom of the feeding funnel is fixedly provided with a connecting frame 5c32 extending to the sliding sleeve 5c4, and the stress hammer 5c31 is fixed on the connecting frame 5c 32.

Based on the above embodiment, when the striking hammer 5c21 strikes on the force-receiving hammer 5c31, the force-receiving hammer 5c31 is pushed upward in the sliding sleeve 5c4 after being pushed upward, the material-receiving hopper 2b is pushed upward, when the striking hammer 5c21 is far away from the force-receiving hammer 5c31, due to the weight of the material-receiving hopper 2b, the force-receiving hammer 5c31 slides downward in the sliding sleeve 5c4, and the material-receiving hopper 2b vibrates up and down by the up and down reciprocating motion of the striking hammer 5c21, and the lime slurry and the coagulated slurry are mixed completely and finally discharged quickly by the vibration force of the material-receiving hopper 2 b.

Further, as shown in fig. 3 and 9:

the stirring mechanism 3c comprises a plurality of vertical bars 3c1 uniformly distributed along the circumferential direction of the sleeve 3b and stirring rods 3c11 uniformly distributed along the length direction of each vertical bar 3c1 at equal intervals, a plurality of rotating rings 3c2 are arranged in the mixing barrel 2 at equal intervals along the axial direction of the mixing barrel, each rotating ring 3c2 is provided with a clamping block 3c21, the inner wall of the mixing barrel 2 is further provided with an annular groove for the rotating rings 3c2 to rotate through the clamping block 3c21, a plurality of first scraping rods 3c22 are further arranged between the rotating rings 3c2, each first scraping rod 3c22 is attached to the inner wall of the mixing barrel 2, the lower end of each first scraping rod 3c22 is further provided with a second scraping rod 3c23 extending along the inner wall of the receiving hopper 2b, and the end of each stirring rod 3c11 facing the first scraping rod 3c22 is further provided with a stirring block 3c 12.

Based on the above embodiment, the technical problem that the present application intends to solve is how to avoid the residue adhering to the inner wall of the mixing bowl 2 while mixing the lime slurry and the coagulated slurry by the stirring mechanism 3 c. For this purpose, according to the present application, by the rotation of the spiral flood dragon 3a, the sleeve 3b rotates along with the spiral flood dragon 3a, and as the sleeve 3b rotates, the several stirring rods 3c11 on the sleeve 3b stir the lime slurry and the coagulated slurry, while the stirring rods 3c11 stir, the poking block 3c12 on the stirring rod 3c11 pokes the first scraping rod 3c22 to rotate along the peripheral wall of the mixing bucket 2, the inner wall of the mixing bucket 2 is rubbed by the first scraping rod 3c22 without leaving residues, and while the first scraping rod 3c22 rubs the inner wall of the mixing bucket 2, the first scraping rod 3c22 also drives the second scraping rod 3c23 connected thereto to rotate along the circumferential direction of the sleeve 3b, and as the second scraping rod 3c23 rotates, the inner wall of the receiving funnel 2b is scraped by the second scraping rod 3c 4, and the mixed slurry and the coagulated slurry and the lime slurry are pushed by the second scraping rod 3c23 b to move more quickly towards the discharge port 2, and is finally discharged.

Further, as shown in fig. 9 and 10:

the elastic pieces 2b1 are multiple, the elastic pieces 2b1 are uniformly distributed along the circumferential direction of the receiving hopper 2b, the elastic piece 2b1 is specifically a spring piece 2b11 in a convex state, the spring piece 2b11 is in a strip structure, two ends of the spring piece 2b11 are respectively inserted into a clamping strip 2b12 with a bayonet, each clamping strip 2b12 is fixed on the bottom frame 1, a convex part of each spring piece 2b11 faces the receiving hopper 2b, and a convex part of each spring piece 2b11 butts against the top edge of the receiving hopper 2 b.

Based on the above embodiment, when the receiving hopper 2b performs the up-and-down vibrating motion, the top surface of the receiving hopper 2b presses the elastic sheet 2b11, two sides of the elastic sheet 2b11 want to extend inside the clamping strip 2b12, the protrusion of the elastic sheet 2b11 tends to be flat under the extrusion of the receiving hopper 2b, when the striking hammer 5c21 is far away from the stressed hammer 5c31, the elastic sheet 2b11 urges the receiving hopper 2b to move downwards under the action of its own elasticity and the gravity of the receiving hopper 2b, the elastic sheet 2b11 returns to the original state, the receiving hopper 2b performs the up-and-down reciprocating motion, and finally, the vibrating discharge of the mixture is realized.

Further, as shown in fig. 3:

a material blocking disc 2a2 is arranged at a feeding port 2a1 of the feeding end cap 2a, the material blocking disc 2a2 is of a conical structure, a conical part of the material blocking disc 2a2 faces upwards, the material blocking disc 2a2, a sleeve 3b and a feeding port 2a1 are coaxial, the diameter of the material blocking disc 2a2 is equal to that of the sleeve 3b, the material blocking disc 2a2 can move on the feeding end cap 2a along the axial direction of the feeding port 2a1, and a lifting mechanism 2a3 for driving the material blocking disc 2a2 to move is further arranged on the feeding end cap 2 a.

Based on the above embodiment, the technical problem that the present application intends to solve is how to avoid the situation of lime slurry and coagulated slurry accumulating on the top end of the sleeve 3b when the lime slurry and the coagulated slurry are thrown into the mixing bowl 2 through the feeding port 2a 1. Therefore, the top end of the sleeve 3b is blocked by the material blocking plate 2a2, when an operator feeds materials, the material blocking plate 2a2 is located at the top end of the sleeve 3b, lime slurry and coagulated slurry slide towards the mixing barrel 2 along the conical surface of the material blocking plate 2a2, when the spiral auger 3a drives the lime slurry and the coagulated slurry to be conveyed upwards, the lifting mechanism 2a3 drives the material blocking plate 2a2 to move upwards in advance, the material blocking plate 2a2 opens the upper port of the sleeve 3b, and the material blocking plate 2a2 shields the feeding port 2a1 of the feeding end cover 2a, so that the lime slurry and the coagulated slurry cannot be blocked by the material blocking plate 2a2 and cannot be sprayed out from the feeding port 2a1 even though the lime slurry and the coagulated slurry are mixed.

This application is passed through drive arrangement 4 and is to agitating unit 3 and the synchronous drive of vibration mechanism, has realized also making the off-the-shelf quick ejection of compact after mixing when lime thick liquid and congealing thick liquid intensive mixing, has improved the even degree of mixing between lime thick liquid and the congealing thick liquid for the off-the-shelf discharge rate after mixing, has realized the hybrid forming of lime thick liquid and congealing thick liquid.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a compounding device of lime water and mortar for building, including chassis (1) and mixing barrel (2) of setting on chassis (1) and agitating unit (3) of setting in mixing barrel (2), the top of mixing barrel (2) is equipped with one and throws material end cover (2a) that have dog-house (2a1), the bottom cover of mixing barrel (2) is equipped with one and has connect material funnel (2b) of discharge gate (2b2), and connect still to be connected through an elastic component (2b1) between material funnel (2b) and chassis (1), a serial communication port, agitating unit (3) set up spiral flood dragon (3a) and coaxial cover in mixing barrel (2) and establish sleeve (3b) on spiral flood dragon (3a) and set up rabbling mechanism (3c) on sleeve (3b) outer wall including coaxial rotation, sleeve (3b) are through a plurality of dead lever (3b1) fixed mounting on spiral flood dragon (3a) and the upper and lower extreme and the sleeve (3b) of sleeve (3b) are in sleeve (3a), sleeve (3b) upper and agitating unit (3b) are through a) fixed mounting All leave the clearance between throwing material end cover (2a) and receiving material funnel (2b), still be equipped with one on chassis (1) and be used for driving receiving material funnel (2b) tremble vibrating device (5) to still be equipped with one on chassis (1) and be used for the drive arrangement (4) of synchronous drive spiral flood dragon (3a) and vibrating device (5).

2. The mixing device for mortar and mortar for buildings according to claim 1, wherein a bearing (3a1) is sleeved at the lower end of the spiral flood dragon (3a), the inner ring of the bearing (3a1) is fixed on the shaft rod of the spiral flood dragon (3a), the outer ring of the bearing (3a1) is fixed on the chassis (1), the lower end of the spiral flood dragon (3a) is also provided with a fixing sleeve (3a2) by the fixing sleeve (3a2), the lower end of the fixing sleeve (3a2) is provided with a first bevel gear (3a3), the side of the first bevel gear (3a3) is engaged with a second bevel gear (3a4), the second bevel gear (3a4) is rotatably arranged on a base (3a6) by a first shaft rod (3a5), and the driving device (4) is installed on the base (3a 6).

3. A mixing apparatus for mixing mortar and mortar for construction according to claim 1, wherein the vibrating means (5) comprises a turntable (5a), the turntable (5a) is rotatably mounted on the base (3a6) via a second shaft (5b), the rotation direction of the turntable (5a) is parallel to the rotation direction of the second bevel gear (3a4), the surface of the turntable (5a) is further provided with a hammering mechanism (5c) for driving the receiving hopper (2b) to shake, and the hammering direction of the hammering mechanism (5c) faces the receiving hopper (2 b).

4. A mixing apparatus for lime slurry and mortar setting for construction as claimed in claim 2, wherein the driving means (4) comprises a first driven gear (4a) and a second driven gear (4b), the first driven gear (4a) is fixed with a sleeve (3a2) provided on the first shaft (3a5), the second driven gear (4b) is fixed with a sleeve (3a2) provided on the second shaft (5b), a driving gear (4c) is further provided between the first driven gear (4a) and the second driven gear (4b), the first driven gear (4a) and the second driven gear (4b) are respectively engaged with the driving gear (4c), the driving gear (4c) is rotatably provided on the base (3a6), and the base (3a6) is also provided with a rotating motor (4d) for driving the driving gear (4c) to rotate.

5. The mixing device of mortar and mortar for building of claim 1, characterized by that, the beating mechanism (5c) includes an eccentric wheel (5c1) coaxially disposed on the turntable (5a), a beating member (5c2) disposed on the eccentric wheel (5c1) and a force receiving member (5c3) disposed at the bottom of the material receiving hopper (2b), a sliding sleeve (5c4) is fixedly disposed on the machine base (3a6), the sliding sleeve (5c4) is coaxial with the spiral auger (3a), the beating member (5c2) and the force receiving member (5c3) are both disposed in the sliding sleeve (5c4), and the beating member (5c2) beats the force receiving member (5c3) in a direction toward the material receiving hopper (2 b).

6. A mixing apparatus for lime mortar and mortar for construction according to claim 5, wherein the striking element (5c2) is a cylindrical striking hammer (5c21), the striking hammer (5c21) is slidable in the sliding sleeve (5c4), the eccentric wheel (5c1) has an eccentric shaft, the eccentric shaft is sleeved with a push-pull rod (5c22), the surface of the striking hammer (5c21) has a hinge, and the other end of the push-pull rod (5c22) is hinged to the hinge of the striking hammer (5c 21).

7. A mixing device for lime mortar and setting cement for building according to claim 5, characterized in that the force-receiving member (5c3) is a force-receiving hammer (5c31) having the same structure as the striking hammer (5c21), the force-receiving hammer (5c31) can slide in the sliding sleeve (5c4), the bottom of the charging hopper is fixedly provided with a connecting frame (5c32) extending to the sliding sleeve (5c4), and the force-receiving hammer (5c31) is fixed on the connecting frame (5c 32).

8. The mixing device for lime slurry and setting cement for construction according to claim 1, wherein the stirring mechanism (3c) comprises a plurality of vertical bars (3c1) uniformly distributed along the circumferential direction of the sleeve (3b) and stirring rods (3c11) uniformly distributed along the length direction of each vertical bar (3c1), the mixing barrel (2) is internally provided with a plurality of rotating rings (3c2) at equal intervals along the axial direction thereof, each rotating ring (3c2) is provided with a clamping block (3c21), the inner wall of the mixing barrel (2) is further provided with a ring groove for the rotating rings (3c2) to rotate through the clamping block (3c21), a plurality of first scraping rods (3c22) are further arranged between the plurality of rotating rings (3c2), each first scraping rod (3c22) is attached to the inner wall of the mixing barrel (2), the lower end of each first scraping rod (3c22) extends along the inner wall of the receiving hopper (2b) and is further provided with a second scraping rod (3c23), and the end of each stirring rod (3c11) facing the first scraping rod (3c22) is also provided with a shifting block (3c 12).

9. The mixing device for lime slurry and setting cement for building according to claim 1, characterized in that the elastic member (2b1) has a plurality of elastic members (2b1) uniformly distributed along the circumferential direction of the receiving hopper (2b), the elastic member (2b1) is a spring (2b11) in a convex state, the spring (2b11) has a strip structure, two ends of the spring (2b11) are respectively inserted into a clamping strip (2b12) with a bayonet, each clamping strip (2b12) is fixed on the bottom frame (1), the convex part of each spring (2b11) faces the receiving hopper (2b) and the convex part of each spring (2b11) abuts against the top edge of the receiving hopper (2 b).

10. The mixing device for lime mortar and setting cement for building of claim 1, characterized in that a material blocking tray (2a2) is arranged at the feeding port (2a1) of the feeding end cap (2a), the material blocking tray (2a2) is in a cone-shaped structure, the cone of the material blocking tray (2a2) faces upwards, the material blocking tray (2a2) is coaxial with the sleeve (3b) and the feeding port (2a1), the diameter of the material blocking tray (2a2) is equal to that of the sleeve (3b), the material blocking tray (2a2) can move on the feeding end cap (2a) along the axial direction of the feeding port (2a1), and a lifting mechanism (2a3) for driving the material blocking tray (2a2) to move is further arranged on the feeding end cap (2 a).

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