CN110700590A - Foam ornamental strip grouting equipment - Google Patents

Abstract

The invention discloses a foam decorative strip grouting device which comprises a grouting workbench and a material receiving device, wherein the grouting workbench is arranged on the top of the grouting workbench; a foam strip conveying mechanism and a grouting area are arranged on the grouting workbench; the grouting area is arranged at the outlet end of the foam strip conveying mechanism; a cement slurry supply assembly for supplying cement slurry to a grouting area is arranged on the side of the grouting workbench; the material receiving device receives the foam strips which are well grouted in the grouting area; the cement paste supply assembly comprises a feeding assembly, a lifter, a stirring device, a conveying device and a connecting cloth bag; cement slurry output from the discharge end of the stirring device enters the feed end of the conveying device; slurry output by the discharge end of the conveying device enters a grouting area; the feeding end of the stirring device is connected with the discharge port of the hoister through a connecting cloth bag; a feeding port of the elevator is connected with a discharging port of the feeding assembly; the grouting device integrates the slurry mixing, grouting and foam strip conveying into one device, and has high grouting efficiency.

Description

Foam ornamental strip grouting equipment

Technical Field

The invention relates to the technical field of foam strip grouting, in particular to foam decorative strip grouting equipment.

Background

The foam strip for the building needs to be covered with a layer of cement paste on the surface so as to improve various performances of toughness, heat preservation and the like of the foam strip.

The grouting equipment of traditional foam strip uses in advance with good grout to grout the foam strip, and the thick liquid and grout between lack connection structure, lead to the continuity of grout poor, need the artifical grout department of transporting grouting equipment with good grout, the artifical material loading of foam strip simultaneously can't guarantee that the foam strip advances at the uniform velocity, not only extravagant labour, it is long to transport time moreover, and the grout is inefficient.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the foam decorating strip grouting equipment integrates the slurry mixing, grouting and foam strip conveying into one equipment.

In order to solve the technical problems, the invention provides the following technical scheme: a foam decoration strip grouting device comprises a grouting workbench and a material receiving device; a foam strip conveying mechanism and a grouting area are arranged on the grouting workbench; the grouting area is arranged at the outlet end of the foam strip conveying mechanism; a cement slurry supply assembly for supplying cement slurry to a grouting area is arranged on the side of the grouting workbench; the material receiving device receives the foam strips which are well grouted in the grouting area;

the cement paste supply assembly comprises a feeding assembly, a lifter, a stirring device, a conveying device and a connecting cloth bag; cement slurry output from the discharge end of the stirring device enters the feed end of the conveying device; slurry output by the discharge end of the conveying device enters a grouting area; the feeding end of the stirring device is connected with the discharge port of the hoister through a connecting cloth bag; a feeding port of the elevator is connected with a discharging port of the feeding assembly;

the conveying device comprises a grouting opening, a conveying rack and a conveying belt; the conveying belt is fixed on the conveying rack; cement paste output by the stirring device enters a lower end feeding position of the conveying belt; the grouting opening is fixed on the conveying rack; the cement slurry output by the conveyer belt enters from the large opening at the upper end of the grouting opening and is output to the grouting area from the small opening at the lower end of the grouting opening.

The method comprises the steps of placing foam strips on a foam strip conveying mechanism, adding cement paste into a feeding assembly, guiding the cement paste stored in the feeding assembly out of a stirring device by a lifter, stirring by the stirring device, outputting the cement paste onto a conveying belt, driving the cement paste to grout into a grouting area through a grout injection port under the driving of the conveying belt, driving the foam strips to advance by the foam strip conveying mechanism, pouring the cement paste onto the foam strips from the grout injection port to finish grouting work, and pushing the next foam strip against the tail end of the foam strip in grouting when the foam strips are grouted to realize assembly line operation.

Preferably, the feeding assembly comprises a storage tank, a feeding funnel and a feeding transmission member for conveying the cement slurry fed into the feeding funnel into the storage tank; the feeding port of the storage tank is communicated with the discharging port of the feeding funnel; the feeding transmission part is arranged at the connecting part of the feeding port of the storage tank and the discharge port of the feeding hopper; and the discharge port of the storage tank is communicated with the lower end feeding port of the elevator.

In grout passes through feed hopper and adds the storage tank, simultaneously under the drive of reinforced driving medium, grout is fast through the intercommunication department of feed hopper and storage tank, prevents that grout from plugging up intercommunication department between them, then uses the storage tank to store a large amount of grout, guarantees the sustainability of grout work.

Preferably, the stirring device comprises a stirring rack, a stirring feeding box, a first stirring assembly, a second stirring assembly and a feeding transmission piece, wherein the feeding transmission piece is used for conveying cement slurry entering the stirring feeding box into the first stirring assembly; the stirring feeding box is arranged at the top end of the stirring rack; the feeding port of the stirring feeding box is communicated with the high-end discharge port of the elevator through a connecting cloth bag; the feeding transmission part is arranged at a discharge port of the stirring feeding box; the discharge hole of the first stirring assembly is communicated with the feed hole of the second stirring assembly; and cement paste output by the second stirring assembly enters the lower end feeding position of the conveying belt.

Preferably, the first stirring assembly comprises a first stirring barrel, a first stirrer and a first stirring barrel discharge pipe orifice; the first stirring barrel is fixed on the stirring rack; the discharge port of the stirring feeding box is communicated with the feeding port of the first stirring barrel; the stirring end of the first stirrer extends into the first stirring barrel; the discharge pipe orifice of the first stirring barrel is arranged on the lower end surface of the first stirring barrel;

the second stirring assembly comprises a second stirring barrel, a second stirrer and a second stirring barrel discharge pipe orifice; the second stirring barrel is arranged below the first stirring barrel; the second stirring barrel is fixed on the stirring rack; the feeding port of the second stirring barrel is communicated with the discharging pipe port of the first stirring barrel; the stirring end of the second stirrer is arranged in the second stirring barrel; and the discharge pipe orifice of the second stirring barrel is arranged at the bottom of the second stirring barrel.

In the lifting machine carried the grout in with the storage tank and stirred the pan feeding case, entered into first agitator from the discharge gate of stirring pan feeding case again, carried out preliminary stirring under the drive of first mixer, then got into the second agitator, driven again at the second agitator, carried out the secondary and stirred for grout fully homogenizes, and the surface cement slurry of guaranteeing grout back cystosepiment is even.

Preferably, the foam strip conveying mechanism comprises a foam strip positioning assembly, a foam strip pressing assembly and a foam strip transmission assembly which are all connected to the grouting workbench; the foam strip positioning components are symmetrically arranged; the foam strip pressing assembly is arranged above the foam strip positioning assembly; the foam strip transmission assembly is installed at the bottom of the foam strip positioning assembly.

After the position of the foam strip positioning assembly is adjusted, the foam strip is placed into the foam strip positioning assembly, then the foam strip pressing assembly is used for pressing the upper end face of the foam strip, the foam strip transmission assembly drives the foam strip to advance at a constant speed when grouting is performed, and the grouting operation on the top face of the foam strip is achieved by driving the foam strip to advance.

Preferably, the foam strip transmission assembly comprises a chain for driving the foam strip to advance, a plurality of chain mounting openings formed in the upper surface of the grouting worktable, and a pyramid for fixing the foam strip and the chain together; the chain mounting openings are distributed at equal intervals along the horizontal vertical direction of the advancing foam strip; the chain is embedded in the chain mounting opening; two ends of the chain are respectively sleeved with chain wheels, and one of the chain wheels is a driving wheel; the pyramids are embedded between two rollers of the chain at equal intervals.

In foam strip locating component was put into to the foam strip, the bottom surface and the chain contact of foam strip reuse the pyramid and support the bottom of foam strip, prevent that chain and foam strip from taking place the phenomenon of skidding, during chain drive, drive the stable forward of foam strip, guarantee the stability of grout.

Preferably, the foam strip positioning assembly comprises a front end adjusting cross beam, a positioning adjusting sleeve, a positioning longitudinal beam and a rear end adjusting cross beam; the front end adjusting beam is closer to the grouting area than the rear end adjusting beam; the front end adjusting beam and the rear end adjusting beam are connected through a positioning longitudinal beam, and the end faces of the front end adjusting beam and the rear end adjusting beam are close to the same end face of the center of the table top of the grouting workbench; foam strips are clamped between the two symmetrically distributed positioning longitudinal beams; the front end adjusting beam and the rear end adjusting beam are movably connected to the table surface of the grouting workbench through the positioning adjusting sleeve.

Through unscrewing the positioning adjusting sleeve, the front end adjusting beam or the rear end adjusting beam is pulled, the size of the space between the two positioning longitudinal beams is changed, so that one or more foam strips are adapted to be poured at the same time, and the working efficiency is improved.

Preferably, the foam strip pressing assembly comprises a movable pressing piece and a movable mounting beam; the movable mounting beam is movably mounted on the grouting workbench; the movable mounting beam moves along the height direction; the movable pressing piece is movably arranged on the movable mounting beam; the movable pressing piece moves along the width direction of the foam strip to replace different pressing objects; the movable pressing piece adjusts the looseness of the pressing foam strip by moving along the height direction.

Preferably, the movable mounting beam comprises pressing vertical beams arranged at two sides of the grouting workbench, pressing cross beams crossing multiple groups of chains and pressing vertical beam adjusting sleeves; the pressing vertical beams are movably arranged on two sides of the grouting workbench through pressing vertical beam adjusting sleeves; the pressing vertical beam moves along the height direction; the compression cross beam is connected between the top ends of the two compression vertical beams; the movable pressing piece is movably connected to the pressing cross beam; the movable pressing piece moves along the guide of the pressing beam.

Through adjusting to compress tightly vertical beam adjusting sleeve and adjust the height of compressing tightly the crossbeam in the movable mounting roof beam, and then adjust the activity and compress tightly the height of piece and foam strip, nimble regulation and control can be applicable to compressing tightly of the foam strip of co-altitude, and application scope is wide.

Preferably, the movable pressing piece comprises an adjusting vertical rod, a horizontal adjusting sleeve of the vertical rod, a vertical adjusting sleeve of the vertical rod and a pressing wheel; the pinch roller is rotatably connected to the bottom end of the adjusting vertical rod; the adjusting vertical rod is movably connected to the vertical rod transverse adjusting sleeve through the vertical rod vertical adjusting sleeve; the vertical rod transverse adjusting sleeve is movably sleeved on the compressing cross beam.

The positions of the pressing wheel and the foam strips are adjusted through the vertical rod transverse adjusting sleeve, and then the pressing wheel is enabled to compress the foam strips through the vertical rod vertical adjusting sleeve, so that the flexible positioning effect on the foam strips is improved.

Adding cement paste into the storage tank through a feeding funnel, ensuring the sufficient amount of the cement paste in the storage tank, unscrewing a positioning adjusting sleeve, pushing a front end adjusting cross beam and a rear end adjusting cross beam to move in the positioning adjusting sleeve, enabling one chain to just fall between two positioning longitudinal beams, after the adjustment is finished, putting a foam strip on the chain between the two positioning longitudinal beams, slightly embedding the foam strip into the most pointed end of a pyramid, preventing the foam strip and the chain from skidding, unscrewing a vertical rod transverse adjusting sleeve, pulling an adjusting vertical rod, enabling a pressing wheel to be located right above the foam strip, screwing the vertical rod transverse adjusting sleeve, unscrewing a vertical rod vertical adjusting sleeve, descending the adjusting vertical rod, enabling the pressing wheel to be pressed on the top surface of the foam strip, and screwing the vertical rod adjusting sleeve; then, a hoisting machine, a feeding transmission part, a first stirring machine and a second stirring machine are started, cement paste in a storage tank is conveyed into a stirring feeding box by the hoisting machine, then enters a first stirring barrel under the driving of the feeding transmission part, stirring is carried out under the stirring action of the first stirring machine, after primary stirring, the cement paste enters a second stirring barrel along a discharge pipe opening of the first stirring barrel, secondary stirring is carried out under the driving of the second stirring machine, after secondary stirring, the cement paste is fully stirred, then is output onto a conveying belt along a discharge pipe opening of the second stirring barrel, and enters a grouting opening under the driving of the conveying belt, meanwhile, a driving chain wheel is started to drive the chain to drive foam strips on the chain to advance at a constant speed, the grouting opening is opposite to the foam strips, grouting operation is carried out on the side of the foam strips to be coated, and the grouted foam strips enter a receiving roller under the driving of the chain, treat the staff and take away, in the foam strip grout, fill in between two location longerons the tail end of the foam strip that is in the grout next foam strip, carry out the grout of next foam strip, so reciprocal, the assembly line grout of foam strip has been realized, grout and foam strip all continue to accomplish the grout action under the drive of machine, when not enough up to the grout in the storage tank, just need not to add new grout, in the grout in-process, need not that personnel's manual continuation adds grout, also need not personnel to stir grout, accomplish in the equipment with thick liquid-grout integration, and accomplish by mechanical equipment, it is efficient to grout.

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

A. according to the invention, the grouting action is continuously completed by the cement paste and the foam strips under the drive of the machine, new cement paste is not required to be added until the cement paste in the storage tank is insufficient, the cement paste is not required to be continuously added by personnel in the grouting process, the cement paste is not required to be stirred by personnel, and the grouting, grouting and foam strip conveying are integrated into one device to be completed and are all completed by mechanical equipment, so that the grouting efficiency is high;

B. the pyramid props against the bottom of the foam strip to prevent the chain and the foam strip from slipping, and the foam strip is driven to stably advance during chain transmission to ensure the stability of grouting; through adjusting to compress tightly vertical beam adjusting sleeve and adjust the height of compressing tightly the crossbeam in the movable mounting roof beam, and then adjust the activity and compress tightly the height of piece and foam strip, nimble regulation and control can be applicable to compressing tightly of the foam strip of co-altitude, and application scope is wide.

Drawings

Fig. 1 is an overall front view structure diagram of a grouting device according to a first embodiment of the invention;

FIG. 2 is a side view of FIG. 1 in accordance with the present invention;

FIG. 3 is a front view of a foam strip delivery mechanism and a grout region according to an embodiment of the present invention;

FIG. 4 is a top view of the foam strip conveying mechanism, the grouting area and the material receiving assembly according to the first embodiment of the invention;

FIG. 5 is an enlarged view of area A of FIG. 4 according to the present invention;

FIG. 6 is a front view of a cement slurry supply assembly according to one embodiment of the present invention.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention for those skilled in the art, the technical solutions of the present invention will be further described with reference to the drawings attached to the specification.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Example one

Referring to fig. 1, the embodiment discloses a foam decoration strip grouting device, which comprises a grouting workbench 1 and a material receiving device 5. And a foam strip conveying mechanism 2 and a grouting area 3 are arranged on the grouting workbench 1. The grouting area 3 is arranged at the outlet end of the foam strip conveying mechanism 2. A grout supply unit 4 for supplying grout to the grouting area 3 is installed at a side of the grouting table 1. And the material receiving device 5 receives the foam strips which are well grouted in the grouting area 3.

Referring to fig. 1 and 2, the cement slurry supply assembly 4 includes a feeding assembly 41, a lifting machine 42, a stirring device 43, a conveying device 44, and a connecting cloth bag 45. The cement slurry output from the discharge end of the stirring device 43 enters the feed end of the conveying device 44. The slurry output from the discharge end of the conveying device 44 enters the grouting area 3. The feeding end of the stirring device 43 is connected with the discharge port of the lifter 42 through a connecting cloth bag 45. And a feeding port of the elevator 42 is connected with a discharging port of the feeding assembly 41.

Referring to fig. 2, the conveying device 44 includes a grouting opening 441, a conveying frame 442 and a conveying belt 443. The conveyor belt 443 is fixed to the conveyor frame 442. The cement slurry output by the stirring device 43 enters the lower end feeding part of the conveying belt 443. The grout port 441 is fixed to the conveyor frame 442. The cement slurry output by the conveyer belt 443 enters from the large opening at the upper end of the grouting opening 441 and is output to the grouting area 3 from the small opening at the lower end of the grouting opening 441.

The foam strips are placed on the foam strip conveying mechanism 2, cement paste is added into the feeding component 41, the cement paste stored in the feeding component 41 is led out to the stirring device 43 by the hoister 42, then the cement slurry is output to the conveyer belt 443 after being stirred by the stirring device 43, the cement slurry is driven by the conveyer belt 443 to be grouted into the grouting area 3 through the grouting opening 441, meanwhile, the foam strip conveying mechanism 2 drives the foam strip to advance, cement paste is poured onto the foam strip from the grouting opening 441 to finish grouting work, when the foam strip is grouted, the next foam strip is propped against the tail end of the foam strip in grouting and is plugged into the foam strip conveying mechanism 2 to realize the flow line operation, wherein, with thick liquid, grout, foam strip transport integration accomplish in an equipment, greatly reduced the input of labour, and grout efficiency obtains promotion by a wide margin.

Referring to fig. 6, the feed assembly 41 includes a storage tank 411, a feed hopper 412, and a feed actuator 413 for delivering cement slurry added to the feed hopper 412 to the storage tank 411. The feed inlet of the storage tank 411 is communicated with the discharge outlet of the feeding funnel 412. The feeding transmission member 413 is arranged at the connection position of the feeding port of the storage tank 411 and the discharging port of the feeding hopper 412. The discharge port of the storage tank 411 is communicated with the lower end feeding port of the elevator 42.

Grout passes through in the feed hopper 412 adds storage tank 411, and simultaneously under the drive of reinforced driving medium 413, grout is fast through the intercommunication department of feed hopper 412 with storage tank 411, prevents that grout from plugging up intercommunication department between them, then uses storage tank 411 to store a large amount of grout, guarantees the sustainability of grout work.

The stirring device 43 includes a stirring frame 431, a stirring feeding box 432, a first stirring assembly 433, a second stirring assembly 434, and a feeding transmission member 435 for conveying cement slurry entering the stirring feeding box 432 into the first stirring assembly 433. The stirring material feeding box 432 is arranged at the top end of the stirring frame 431. The feeding port of the stirring feeding box 432 is communicated with the high-end discharging port of the lifter 42 through a connecting cloth bag 45. The feeding transmission member 435 is arranged at the discharge port of the stirring feeding box 432. The discharge port of the first stirring assembly 433 is communicated with the feeding port of the second stirring assembly 434. The cement slurry output by the second stirring assembly 434 enters the lower end feeding part of the conveyer belt 443.

First stirring subassembly 433 includes first agitator 433a, first mixer 433b and first agitator discharge tube mouth 433 c. The first agitating barrel 433a is fixed to the agitator frame 431. And the discharge hole of the stirring feeding box 432 is communicated with the feeding hole of the first stirring barrel 433 a. The stirring end of the first stirrer 433b extends into the first stirring barrel 433 a. And the discharge pipe orifice 433c of the first stirring barrel is arranged on the lower end surface of the first stirring barrel 433 a.

The second stirring assembly 434 includes a second stirring barrel 434a, a second stirrer 434b and a second stirring barrel discharge nozzle 434 c. The second agitating barrel 434a is disposed below the first agitating barrel 433 a. The second agitating barrel 434a is fixed to the agitator frame 431. And the feeding port of the second stirring barrel 434a is communicated with the discharge pipe port 433c of the first stirring barrel. The stirring end of the second stirrer 434b is disposed inside the second stirring barrel 434 a. The second mixing drum discharge pipe port 434c is arranged at the bottom of the second mixing drum 434 a.

In the lifting machine 42 carried the grout in the storage tank 411 to stirring pan feeding case 432, again entered into first agitator 433a from the discharge gate of stirring pan feeding case 432, carried out preliminary stirring under the drive of first mixer 433b, then got into second agitator 434a, again under the drive of second mixer 434b, carried out the secondary and stirred for grout fully homogenizes, and the surface cement slurry of guaranteeing grout back cystosepiment is even.

The first agitation tank 433a is cylindrical, and the second agitation tank 434a is funnel-shaped.

Referring to fig. 3 and 4, the foam strip conveying mechanism 2 includes a foam strip positioning assembly 21, a foam strip pressing assembly 22 and a foam strip transmission assembly 23, which are all connected to the grouting work table 1. The foam strip positioning components 21 are symmetrically arranged. The foam strip pressing assembly 22 is disposed above the foam strip positioning assembly 21. The foam strip transmission assembly 23 is installed at the bottom of the foam strip positioning assembly 21.

After the position of the foam strip positioning assembly 21 is adjusted, the foam strip is placed into the foam strip positioning assembly 21, then the foam strip pressing assembly 22 is used for pressing the upper end face of the foam strip, the foam strip transmission assembly 23 drives the foam strip to advance at a constant speed during grouting, and grouting operation on the top face of the foam strip is achieved by driving the foam strip to advance.

Referring to fig. 4 and 5, the foam strip driving assembly 23 includes a chain 231 for driving the foam strip to advance, a plurality of chain mounting openings 232 formed on the upper surface of the grouting work table 1, and a pyramid 233 for fixing the foam strip and the chain 231 together. The plurality of chain mounting openings 232 are equidistantly spaced along the horizontal vertical direction of the advancing foam strip. The chain 231 is embedded in the chain mounting opening 232. Two ends of the chain 231 are respectively sleeved with a chain wheel (not shown in the figure), and one of the chain wheels is a driving wheel. The pyramids 233 are embedded at equal intervals between the two rollers of the chain 231.

In foam strip locating component 21 was put into to the foam strip, the bottom surface of foam strip contacted with chain 231, reused pyramid 233 to support the bottom of foam strip, prevented chain 231 and foam strip from taking place the phenomenon of skidding, during the transmission of chain 231, driven the foam strip and stably marchd, guaranteed the stability of grout.

Referring to fig. 4, the foam strip positioning assembly 21 includes a front end adjusting cross member 211, a positioning adjusting sleeve 212, a positioning longitudinal member 213, and a rear end adjusting cross member 214. The front end adjusting beam 211 is located closer to the grouting area 3 than the rear end adjusting beam 214. The front end adjusting beam 211 and the rear end adjusting beam 214 are connected through a positioning longitudinal beam 213, and the end faces of the front end adjusting beam and the rear end adjusting beam are close to the center of the table top of the grouting workbench 1. The foam strips are held between two symmetrically arranged positioning stringers 213. The front end adjusting beam 211 and the rear end adjusting beam 214 are movably connected to the table top of the grouting worktable 1 through a positioning adjusting sleeve 212.

By unscrewing the positioning adjusting sleeve 212, the front end adjusting beam 211 or the rear end adjusting beam 214 is pulled, so that the distance between the two positioning longitudinal beams 213 is changed, one or more foam strips are suitable to be poured at the same time, and the working efficiency is improved.

Referring to fig. 3 and 4, the foam strip pressing assembly 22 includes a movable pressing member 221 and a movable mounting beam 222. The movable mounting beam 222 is movably mounted on the grouting work table 1. The movable mounting beam 222 moves in the height direction. The movable pressing member 221 is movably mounted on the movable mounting beam 222. The movable pressing member 221 is moved in the width direction of the foam strip to replace a different pressing object. The movable pressing member 221 adjusts the looseness of the pressed foam strip by moving in the height direction.

Referring to fig. 4, the movable mounting beam 222 includes pressing vertical beams 222a disposed at both sides of the grouting work table 1, pressing cross beams 222b crossing over a plurality of sets of chains 231, and pressing vertical beam adjustment sleeves 222 c. The pressing vertical beam 222a is movably installed at both sides of the grouting work table 1 through a pressing vertical beam adjusting sleeve 222 c. The pressing vertical beam 222a moves in the height direction. The hold-down beam 222b is connected between the top ends of the two hold-down vertical beams 222 a. The movable pressing member 221 is movably connected to the pressing beam 222 b. The movable pressing member 221 moves along the guide of the pressing beam 222 b.

Through adjusting to compress tightly vertical beam adjusting sleeve 222c and adjust the height that compresses tightly crossbeam 222b in movable mounting roof beam 222, and then adjust the height that the activity compressed tightly piece 221 and foam strip, nimble regulation and control can be applicable to compressing tightly of the foam strip of co-altitude, and application scope is wide.

Referring to fig. 3, the movable pressing member 221 includes an adjusting rod 2211, a rod horizontal adjusting sleeve 2212, a rod vertical adjusting sleeve 2213 and a pressing wheel 2214. The pressing wheel 2214 is rotatably connected to the bottom end of the adjusting vertical rod 2211. The adjusting vertical rod 2211 is movably connected to the vertical rod transverse adjusting sleeve 2212 through a vertical rod vertical adjusting sleeve 2213. The vertical rod transverse adjusting sleeve 2212 is movably sleeved on the pressing cross beam 222 b.

The positions of the pressing wheel 2214 and the foam strips are adjusted through the vertical rod transverse adjusting sleeve 2212, and the pressing wheel 2214 is enabled to compress the foam strips through the vertical rod vertical adjusting sleeve 2213, so that the flexible positioning effect on the foam strips is improved.

Referring to fig. 3 or 4, the grouting area 3 includes two grouting baffles 31, adjusting bolts 32 and fixing pieces 33, which are oppositely disposed. The grouting baffle 31 is fixed on the grouting work bench 1 by a fixing plate 33. A plurality of adjusting bolts 32 are correspondingly fixed on two side edges of the grouting baffle 31.

Referring to fig. 4, the material receiving device 5 includes a material receiving platform 51 and a material receiving roller 52. The receiving platform 51 is provided with a plurality of receiving rollers 52.

The working principle of the embodiment is as follows: cement paste is added into the storage tank 411 through the feeding funnel 412, the sufficient amount of the cement paste in the storage tank 411 is ensured, then the positioning adjusting sleeve 212 is unscrewed, the front end adjusting cross beam 211 and the rear end adjusting cross beam 214 are pushed to move in the positioning adjusting sleeve 212, one chain 231 is just fallen between the two positioning longitudinal beams 213, after the adjustment is finished, the foam strip is placed on the chain 231 between the two positioning longitudinal beams 213, the most tip of the pyramid 233 is slightly embedded into the foam strip, the foam strip is prevented from slipping with the chain 231, then the vertical rod transverse adjusting sleeve 2212 is unscrewed, the adjusting vertical rod 2211 is pulled, the pressing wheel 2214 is positioned right above the foam strip, the vertical rod transverse adjusting sleeve 2212 is screwed, the vertical rod 2213 is unscrewed, the adjusting vertical rod 2211 is lowered, the pressing wheel 2214 is pressed on the top surface of the foam strip, and the vertical rod adjusting sleeve 2213 is screwed; then, the elevator 42, the feeding transmission member 435, the first mixer 433b, and the second mixer 434b are started, the cement slurry in the storage tank 411 is conveyed by the elevator 42 into the mixing and feeding box 432, and then enters the first mixer 433a under the driving of the feeding transmission member 435, and is mixed under the mixing action of the first mixer 433b, after primary mixing, the cement slurry enters the second mixer 434a along the discharge pipe opening 433c of the first mixer, and is mixed for the second time under the driving of the second mixer 434b, after secondary mixing, the cement slurry is fully mixed, and then is output onto the conveyor belt 443 along the discharge pipe opening 434c of the second mixer, and enters the grouting opening 441 under the driving of the conveyor belt 443, and at the same time, a driving sprocket (not shown) is started to drive the chain 231 to drive and make the foam strips on the chain 231 move forward at a uniform speed, grouting port 441 faces the foam strip, grouting operation is performed on one side of the foam strip to be coated with cement paste, the grouted foam strip enters a material receiving roller 52 under the driving of a chain 231, workers take away the foam strip, the tail end of the next foam strip, which is attached to the foam strip in grouting, is plugged between two positioning longitudinal beams 213 while the foam strip is grouted, grouting of the next foam strip is performed, the process is repeated, flow line grouting of the foam strip is achieved, grouting action is continuously completed by the cement paste and the foam strip under the driving of a machine, new cement paste is not required to be added until the cement paste in a storage tank 411 is insufficient, manual continuous addition of the cement paste is not required in the grouting process, stirring of the cement paste by the workers is also not required, grouting and grouting are completed in one device, mechanical devices are completed, and grouting efficiency is high.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The above-mentioned embodiments only represent embodiments of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the concept of the present invention, and these embodiments are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a foam ornamental strip grouting equipment which characterized in that: comprises a grouting workbench and a material receiving device; a foam strip conveying mechanism and a grouting area are arranged on the grouting workbench; the grouting area is arranged at the outlet end of the foam strip conveying mechanism; a cement slurry supply assembly for supplying cement slurry to a grouting area is arranged on the side of the grouting workbench; the material receiving device receives the foam strips which are well grouted in the grouting area;

the cement paste supply assembly comprises a feeding assembly, a lifter, a stirring device, a conveying device and a connecting cloth bag; cement slurry output from the discharge end of the stirring device enters the feed end of the conveying device; slurry output by the discharge end of the conveying device enters a grouting area; the feeding end of the stirring device is connected with the discharge port of the hoister through a connecting cloth bag; a feeding port of the elevator is connected with a discharging port of the feeding assembly;

the conveying device comprises a grouting opening, a conveying rack and a conveying belt; the conveying belt is fixed on the conveying rack; cement paste output by the stirring device enters a lower end feeding position of the conveying belt; the grouting opening is fixed on the conveying rack; the cement slurry output by the conveyer belt enters from the large opening at the upper end of the grouting opening and is output to the grouting area from the small opening at the lower end of the grouting opening.

2. A foam trim strip grouting apparatus as claimed in claim 1, characterised in that: the feeding assembly comprises a storage tank, a feeding hopper and a feeding transmission part for conveying cement slurry added into the feeding hopper into the storage tank; the feeding port of the storage tank is communicated with the discharging port of the feeding funnel; the feeding transmission part is arranged at the connecting part of the feeding port of the storage tank and the discharge port of the feeding hopper; and the discharge port of the storage tank is communicated with the lower end feeding port of the elevator.

3. A foam trim strip grouting apparatus as claimed in claim 2, characterised in that: the stirring device comprises a stirring rack, a stirring feeding box, a first stirring assembly, a second stirring assembly and a feeding transmission piece, wherein the feeding transmission piece is used for conveying cement slurry entering the stirring feeding box into the first stirring assembly; the stirring feeding box is arranged at the top end of the stirring rack; the feeding port of the stirring feeding box is communicated with the high-end discharge port of the elevator through a connecting cloth bag; the feeding transmission part is arranged at a discharge port of the stirring feeding box; the discharge hole of the first stirring assembly is communicated with the feed hole of the second stirring assembly; and cement paste output by the second stirring assembly enters the lower end feeding position of the conveying belt.

4. A foam trim strip grouting apparatus as claimed in claim 3, characterised in that: the first stirring assembly comprises a first stirring barrel, a first stirrer and a first stirring barrel discharging pipe orifice; the first stirring barrel is fixed on the stirring rack; the discharge port of the stirring feeding box is communicated with the feeding port of the first stirring barrel; the stirring end of the first stirrer extends into the first stirring barrel; the discharge pipe orifice of the first stirring barrel is arranged on the lower end surface of the first stirring barrel;

the second stirring assembly comprises a second stirring barrel, a second stirrer and a second stirring barrel discharge pipe orifice; the second stirring barrel is arranged below the first stirring barrel; the second stirring barrel is fixed on the stirring rack; the feeding port of the second stirring barrel is communicated with the discharging pipe port of the first stirring barrel; the stirring end of the second stirrer is arranged in the second stirring barrel; and the discharge pipe orifice of the second stirring barrel is arranged at the bottom of the second stirring barrel.

5. A foam trim strip grouting apparatus as claimed in claim 1, characterised in that: the foam strip conveying mechanism comprises a foam strip positioning assembly, a foam strip pressing assembly and a foam strip transmission assembly which are all connected to the grouting workbench; the foam strip positioning components are symmetrically arranged; the foam strip pressing assembly is arranged above the foam strip positioning assembly; the foam strip transmission assembly is installed at the bottom of the foam strip positioning assembly.

6. A foam trim strip grouting apparatus as claimed in claim 5, characterised in that: the foam strip transmission assembly comprises a chain for driving the foam strip to advance, a plurality of chain mounting openings formed in the upper surface of the grouting worktable and a pyramid for fixing the foam strip and the chain together; the chain mounting openings are distributed at equal intervals along the horizontal vertical direction of the advancing foam strip; the chain is embedded in the chain mounting opening; two ends of the chain are respectively sleeved with chain wheels, and one of the chain wheels is a driving wheel; the pyramids are embedded between two rollers of the chain at equal intervals.

7. A foam trim strip grouting apparatus as claimed in claim 5, characterised in that: the foam strip positioning assembly comprises a front end adjusting cross beam, a positioning adjusting sleeve, a positioning longitudinal beam and a rear end adjusting cross beam; the front end adjusting beam is closer to the grouting area than the rear end adjusting beam; the front end adjusting beam and the rear end adjusting beam are connected through a positioning longitudinal beam, and the end faces of the front end adjusting beam and the rear end adjusting beam are close to the same end face of the center of the table top of the grouting workbench; foam strips are clamped between the two symmetrically distributed positioning longitudinal beams; the front end adjusting beam and the rear end adjusting beam are movably connected to the table surface of the grouting workbench through the positioning adjusting sleeve.

8. A foam trim strip grouting apparatus as claimed in claim 5, characterised in that: the foam strip pressing assembly comprises a movable pressing piece and a movable mounting beam; the movable mounting beam is movably mounted on the grouting workbench; the movable mounting beam moves along the height direction; the movable pressing piece is movably arranged on the movable mounting beam; the movable pressing piece moves along the width direction of the foam strip to replace different pressing objects; the movable pressing piece adjusts the looseness of the pressing foam strip by moving along the height direction.

9. A foam trim strip grouting apparatus as claimed in claim 8, characterised in that: the movable mounting beam comprises pressing vertical beams arranged at two sides of the grouting workbench, pressing cross beams crossing multiple groups of chains and pressing vertical beam adjusting sleeves; the pressing vertical beams are movably arranged on two sides of the grouting workbench through pressing vertical beam adjusting sleeves; the pressing vertical beam moves along the height direction; the compression cross beam is connected between the top ends of the two compression vertical beams; the movable pressing piece is movably connected to the pressing cross beam; the movable pressing piece moves along the guide of the pressing beam.

10. A foam trim strip grouting apparatus as claimed in claim 8, characterised in that: the movable pressing piece comprises an adjusting vertical rod, a horizontal adjusting sleeve of the vertical rod, a vertical adjusting sleeve of the vertical rod and a pressing wheel; the pinch roller is rotatably connected to the bottom end of the adjusting vertical rod; the adjusting vertical rod is movably connected to the vertical rod transverse adjusting sleeve through the vertical rod vertical adjusting sleeve; the vertical rod transverse adjusting sleeve is movably sleeved on the compressing cross beam.

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