CN213806428U - Plastering system with novel feeding mechanism - Google Patents

Abstract

The utility model discloses a plastering system with a novel feeding mechanism, which comprises an installation frame, wherein the left end and the right end of the installation frame are provided with side baffles which are just opposite to each other, the side baffles protrude to the front of the installation frame, a plastering plate is pivotally arranged between the two side baffles, and when the plastering plate pivots to the extreme position, the upper edge or the lower edge of the plastering plate protrudes to the front of the side baffles; and the mounting frame is provided with a feeding mechanism, the feeding mechanism comprises a feeding pipe and a driving part for driving the feeding pipe to slide along the length direction of the mounting frame, and the outlet end of the feeding pipe faces forwards, is positioned between the two side baffles and is positioned above the plastering plate. Can be used for the automatic machine construction demand of plastering that goes up and down to continuously reciprocal autoloading through feeding mechanism, with the mortar waste of reducing, by it reduces the mortar waste of the board action switching process of plastering, through improving whole installation and lift stability again, reach further waste reduction, and improve the purpose of plastering quality and efficiency.

Description

Plastering system with novel feeding mechanism

Technical Field

The utility model relates to a construction equipment field, concretely relates to take novel feeding mechanism's system of plastering.

Background

Along with the acceleration of the social urbanization process, the modernization requirement of building construction is higher and higher, and in order to fully improve the construction progress of the urban construction, shorten the construction period and the like, more and more modern mechanical equipment is used for building.

The house interior wall engineering volume of plastering occupies great proportion in housing construction, and the mode of adopting manual operation basically for a long time, it is more to possess the labour, has increased the cost of labor relatively, and construction cycle also is influenced by personnel greatly simultaneously, influences the engineering progress very easily, and simultaneously, construction quality also varies from person to person, is difficult to guarantee the quality uniformity. Some automatic plastering unit have also appeared on the market, drive the plastering unit through mechanical equipment and go up and down to remove and plaster the construction, but because the mode that adopts disposable feed mostly leads to the mortar extravagant great usually, it is extravagant also to cause mortar in addition to plaster structural defect and lift shake etc. in addition, these problems also directly lead to plastering the low, the quality of construction efficiency poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a take novel feeding mechanism's plastering system satisfies the demand of plastering of automatic lift, and the mortar that significantly reduces is extravagant, improves construction quality and efficiency etc..

In order to achieve the above purpose, the utility model discloses technical scheme as follows:

the utility model provides a take novel feeding mechanism's system of plastering, its key lies in: the side baffle plates are arranged at the left end and the right end of the mounting frame in a facing mode, the side baffle plates protrude to the front of the mounting frame, a wiping plate is arranged between the two side baffle plates in a pivoting mode, and when the wiping plate is pivoted to a limit position, the upper side edge or the lower side edge of the wiping plate protrudes to the front of the side baffle plates;

the mounting frame is provided with a feeding mechanism, the feeding mechanism comprises a feeding pipe and a driving part used for driving the feeding pipe to slide along the length direction of the mounting frame, wherein the outlet end of the feeding pipe is arranged forwards, is positioned between the two side baffles and is positioned above the plastering plate.

Scheme more than adopting, in the work progress of plastering, form the portion of plastering through the upside edge or the downside edge in the outstanding side shield the place ahead of the board of wiping, satisfy the demand of plastering, go up the in-process simultaneously, the board of wiping surrounds formation charging area with side shield portion, the external pumping installations of conveying pipe accessible continues to send into the charging area with the mortar, and paint to the construction wall face through the board of wiping, adopt the mode that lasts the pay-off, the mortar of the in-process is paintd in the significantly reduced is extravagant, drive conveying pipe reciprocating motion through driver part simultaneously, be favorable to guaranteeing that the board of wiping paints the even sufficient mortar volume in the scope, be favorable to guaranteeing good quality of plastering.

Preferably, the method comprises the following steps: the feeding pipe comprises a buffer section located right above the mounting frame, and the buffer section extends backwards along the width direction of the mounting frame and bends downwards. By adopting the scheme, the vertical pulling force of the feeding pipe on the driving part is favorably reduced, the stability of left and right sliding is ensured, and sharp bending is avoided simultaneously so as to prolong the service life of the feeding pipe.

Preferably, the method comprises the following steps: the driving part is a linear module arranged along the length direction of the mounting frame, the linear module comprises a sliding seat, and a hoop matched with the feeding pipe is arranged on the sliding seat. Adopt linear module as drive assembly, be convenient for installation and later stage maintenance change, implementation cost is lower relatively, utilizes the fixed conveying pipe of staple bolt simultaneously, is favorable to improving dismouting efficiency.

Preferably, the method comprises the following steps: the mounting bracket is characterized in that the mounting bracket is arranged in the middle of the mounting bracket along the length direction of the mounting bracket, the mounting groove is a through groove penetrating through the upper side and the lower side of the mounting bracket, a lifting driving assembly is arranged on the rear side of the mounting groove, and the driving part is positioned on the front side of the mounting groove. By adopting the layout mode, the gravity center of the plastering system is close to the middle part of the plastering system, and the overall balance of the plastering system is favorably improved.

Preferably, the method comprises the following steps: the installation rack is provided with a righting assembly corresponding to the installation groove, and the righting assembly comprises lateral carrier rollers and front carrier rollers, wherein the lateral carrier rollers are located at the left end and the right end of the installation groove, and the front carrier rollers are located at the front ends of the installation groove. By adopting the scheme, the stability of the plastering system in the lifting process is improved, and the plastering system is prevented from deviating in the left-right direction and the front-back direction.

Preferably, the method comprises the following steps: the floating plate is pivoted with the side baffle, and a first electric push rod for driving the floating plate to rotate is arranged on the mounting frame. The electric push rod drives the floating plate to rotate, so that the installation and implementation, operation control and the like are facilitated.

Compared with the prior art, the beneficial effects of the utility model are that:

adopt the utility model provides a take novel feeding mechanism's plastering system can be used for automatic machine to go up and down to plaster the construction demand to continuously reciprocal autoloading through feeding mechanism, with the mortar waste of reducing, it is the mortar waste that reduces the action of wiping the board and switch over the process, again through improving whole installation and lift stability, reach further reduction extravagant, and improve the purpose of plastering quality and efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

fig. 3 is a left side view of the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 3;

FIG. 5 is a schematic view of the usage state of the present invention;

fig. 6 is a schematic view of the matching structure between the present invention and the stand column.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

Referring to fig. 1 to 6, the plastering system with the novel feeding mechanism mainly includes a mounting frame 430 and a plastering plate 420, which are substantially plate-shaped, wherein the left and right ends of the mounting frame 430 (front, back, left, right, up and down, and the relative position of the mounting frame during use is taken as reference in this application, if one side close to a construction wall surface is the front, and one side far away from the construction wall surface is the back) are provided with a side baffle 436 which is arranged right opposite to the mounting frame 436, and the side baffle 436 is vertically arranged relative to the mounting frame 430, and partially protrudes to the front of the mounting frame 430.

The plastering plate 420 is rotatably arranged between the two side baffles 436, the lower sides of the two ends of the plastering plate 420 are hinged with the side baffles 436, and the left and right side edges of the plastering plate 420 are basically attached to the side baffles 436 to prevent mortar from leaking out, a first electric push rod 440 is arranged on the mounting frame 430, the plastering plate 420 can rotate relative to the mounting frame 430 under the action of the first electric push rod 440, the tilting position and the forward tilting position are switched, when the plastering plate 420 is in the tilting backward position (the upper side of the plastering plate 420 is closer to the mounting frame 430 than the lower side), the lower side edge of the plastering plate 420 protrudes to the front of the side baffles 436, and when the plastering plate 420 is in the forward tilting position (the lower side of the plastering plate 420 is closer to the mounting frame 430 than the upper side), the upper side edge of the plastering plate 420 protrudes to the front of the side baffles 436, so that the plastering system can carry out plastering construction in the lifting process and meet the requirement of automatic plastering.

As shown in the figure, in this embodiment, the mounting frame 430 is provided with a feeding mechanism 410, the feeding mechanism 410 mainly includes a feeding pipe 411 and a driving part 412 capable of driving the feeding pipe 411 to slide back and forth along the length direction of the mounting frame 430, wherein a discharging end of the feeding pipe 411 is located above the floating plate 420, and when the floating plate 420 moves upward and is located at a backward-leaning position, the feeding pipe 411 and the left and right side baffles 436 surround to form a charging area, and the feeding pipe 411 can feed mortar into the charging area.

In specific implementation, the feeding pipe 411 is preferably a flexible pipe and has a buffering section 4110 located above the mounting rack 430, as shown in fig. 1 and 3, the buffering section 4110 extends backwards along the width direction of the mounting rack 430 and bends downwards after extending to the rear of the mounting rack 430 so as to be connected with an external slurry pumping pipeline, and preferably, a linear module is used as the driving part 412, the linear module is arranged along the length direction of the mounting rack 430 and is close to the upper front side of the mounting rack 430, a sliding seat 413 is arranged on the linear module, hoops 414 distributed along the width direction of the linear module are arranged on the sliding seat 413, and the front end of the buffering section 4110 is fixedly connected with the sliding seat 413 through the hoops 414.

As shown in the figure, a mounting groove 435 formed along the length direction is formed in the position, close to the middle, of the mounting frame 430, the mounting groove 435 is a through groove penetrating through the upper side and the lower side of the mounting frame 430 and is substantially rectangular, a rectangular frame 439 is formed at the bottom of the mounting frame 430, the rectangular frame 439 is located outside the mounting groove 435, and the plastering system is mounted on the plastering machine mainly through the mounting groove 435 during mounting.

In this embodiment, adopt the structure of gear elevating system cooperation righting subassembly in order fully to improve the lift stability of plastering system, have the pivot 431 of installing with rotatable mode on the mounting bracket 430 to dispose and be used for driving pivot 431 pivoted first motor 432, the cover is equipped with lifting gear 433 on the pivot 431, through lifting gear 433 and the rack cooperation on the wall plastering machine stand, can accomplish the lift action.

Specifically, as shown in the figure, the rotating shaft 431 is located in the rectangular frame 439, is close to the rear side of the mounting groove 435, and is arranged along the length direction of the mounting groove 435, the left end and the right end of the rotating shaft are both provided with lifting gears 433 close to the end parts of the mounting groove 435, and the first motor 432 is close to the middle part of the rectangular frame 439, and can drive the rotating shaft 431 to rotate through a gear transmission mechanism.

The centralizing assembly in this embodiment mainly includes a front idler 434 located in front of the mounting groove 435 and side idlers 437 at both ends, as shown in the figure, the front idler 434 is rotatably disposed on the rectangular frame 439 and corresponds to the positions of the lifting gears 433, the axes of the two are parallel to each other, in the specific implementation, an upper front idler 434 and a lower front idler 434 are disposed corresponding to each lifting gear 433, and the lifting gears 433 are located between the two front idlers 434, that is, the two front idlers 434 and the lifting gears 433 are distributed in an isosceles triangle, so as to further improve the centralizing performance.

In order to prevent the front idlers 434 at the left and right ends from rotating asynchronously and affecting the lifting stability, the front idlers 434 facing each other at the left and right ends are connected into a whole by a connecting shaft 438 in this embodiment, as shown in the figure, the connecting shaft 438 is rotatably supported at the inner side of the rectangular frame 439, and the front idlers 434 are fixedly sleeved on the connecting shaft 438.

The side idlers 437 are rotatably installed at the left and right ends of the installation groove 435, and the rotation axes thereof are perpendicular to the rotation axis of the front idler 434, and are mainly used for centering the left and right ends of the plastering system and preventing left and right deflection.

Referring to fig. 3 and 4, the side guards 436 are substantially right trapezoid structures, the upper side edges and the front side edges of the side guards 436 are perpendicular to each other, the length direction of the mounting frame 430 and the length direction of the front side edges of the side guards 436 are orthogonal, the side guards 436 are detachably connected with the mounting frame 430 by screws, the left and right ends of the lower side of the trowel plate 420 are provided with trowel connecting shafts 421 extending outwards along the length direction thereof, the lower parts of the front sides of the side guards 436 are provided with shaft holes 4360 adapted to the trowel connecting shafts 421, and the trowel plate 420 is rotatably mounted by matching the trowel connecting shafts 421 with the shaft holes 4360.

Both ends all are equipped with first electric putter 440 about mounting bracket 430, and first electric putter 440's push rod is forward to articulated with floating plate 420, and its articulated position is close to the upside of floating plate 420, and in addition, for further improvement plaster quality, set firmly at least one shock dynamo 450 in the back of floating plate 420 in this embodiment, shock dynamo 450 is high frequency shock dynamo 450, and in the work progress, through the high frequency vibrations that shock dynamo 450 produced, drive floating plate 420 and smooth mortar rapidly.

Referring to fig. 1 to 6, a plastering system with a novel feeding mechanism is used in an automatic plastering machine, as shown in the figure, the plastering machine mainly comprises a base 100 and a stand column 200 rotatably supported on the base 100, the stand column 200 is provided with an angle locking mechanism 300, the stand column 200 and the base 100 can be relatively locked by the angle locking mechanism 300, the plastering system of the present application is mainly movably supported on the stand column 200 by a mounting frame 430, as shown in the figure, the rear side of the stand column 200 is provided with a rack 210 engaged with a lifting gear 433, and when a first motor 432 works, the plastering system can be driven to lift along the stand column 200.

After the installation is finished, the front carrier roller 434 is tangent to the front side of the upright post 200 in a rolling manner, and the side carrier roller 437 is tangent to the outer side of the upright post 200 in a rolling manner, so that the plastering system is centered, the front and back deflection and the left and right deflection of the plastering system are prevented, and the lifting stability of the plastering system is greatly improved.

In the construction process, the plastering system is arranged at the bottom of the upright post 200 at the beginning, the inclination angle of the upright post 200 and the distance between the base 100 and the wall surface are adjusted, the plastering plate 420 is in a backward inclined posture, the feeding pipe 411 is connected with an external feeding pipeline and starts feeding, the first motor 432 is started to ascend, plastering operation can be carried out through the lower side edge protruding out of the plastering plate 420, the plastering operation is mainly completed in the ascending process, the material is roughly leveled, feeding is stopped after the plastering plate ascends to the highest point, the plastering plate 420 is pushed by the first electric push rod 440 to be in the forward inclined posture, the first motor 432 reversely rotates to drive the plastering system to integrally descend, the vibration motor 450 is started, secondary plastering is carried out on the mortar surface through the upper side edge protruding out of the plastering plate 420, because a continuous feeding mode is adopted, only feeding is needed to be carried out in a material loading area as required, and excessive one-time loading is avoided, the condition that the mortar is dumped and wasted in the rotating process of the plastering plate 420 is caused, the lifting stability of the plastering system is good, the reliability of the plastering system is improved, and the good plastering quality and efficiency are ensured.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (6)

1. The utility model provides a system of plastering of novel feeding mechanism in area which characterized in that: the device comprises a mounting frame (430), wherein the left end and the right end of the mounting frame (430) are provided with side baffles (436) which are oppositely arranged, the side baffles (436) protrude to the front of the mounting frame (430), a wiping plate (420) is pivotally arranged between the two side baffles (436), and when the wiping plate (420) is pivoted to an extreme position, the upper side edge or the lower side edge of the wiping plate protrudes to the front of the side baffles (436);

be equipped with feeding mechanism (410) on mounting bracket (430), feeding mechanism (410) include conveying pipe (411), and be used for driving conveying pipe (411) are along the gliding driver part (412) of mounting bracket (430) length direction, and wherein conveying pipe (411) exit end sets up forward, is located between two side shields (436), and is in wipe board (420) top.

2. The plastering system with a novel feeding mechanism as claimed in claim 1, wherein: the feeding pipe (411) comprises a buffer section (4110) located right above the mounting frame (430), and the buffer section (4110) extends backwards along the width direction of the mounting frame (430) and bends downwards.

3. The plastering system with the novel feeding mechanism as claimed in claim 1 or 2, wherein: the driving part (412) is a linear module arranged along the length direction of the mounting frame (430), the linear module comprises a sliding seat (413), and a hoop (414) matched with the feeding pipe (411) is arranged on the sliding seat (413).

4. The plastering system with a novel feeding mechanism as claimed in claim 1, wherein: mounting bracket (430) middle part is along mounting groove (435) that its length direction set up, the logical groove of both sides about mounting bracket (430) is run through in mounting groove (435), mounting groove (435) rear side is equipped with lift drive assembly, driver part (412) are located the front side of mounting groove (435).

5. The plastering system with the novel feeding mechanism as claimed in claim 4, wherein: the mounting bracket (430) is provided with a centering assembly corresponding to the mounting groove (435), and the centering assembly comprises side carrier rollers (437) positioned at the left end and the right end of the mounting groove (435) and front carrier rollers (434) positioned at the two ends of the front side of the mounting groove (435).

6. The plastering system with a novel feeding mechanism as claimed in claim 1, wherein: the floating plate (420) is pivoted with the side baffle (436), and a first electric push rod (440) for driving the floating plate (420) to rotate is arranged on the mounting frame (430).

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