CN116984174B - Aluminum mould oiling device for house construction - Google Patents

Abstract

The invention belongs to the field of building construction, and particularly relates to aluminum mould oiling equipment for building construction, which comprises a conveying unit, a rolling brush mechanism, a slag removing mechanism and a conical barrier strip, wherein the rolling brush mechanism is arranged at the middle rear end above the conveying unit, the slag removing mechanism is arranged at the middle front end above the conveying unit, the conical barrier strip is arranged between the rolling brush mechanism and the slag removing mechanism, the slag removing mechanism is used for removing concrete residues on the surface of an aluminum mould, and the rolling brush mechanism is used for brushing a release agent on the aluminum mould after the residues are removed. The scheme adopts the slag removing mechanism and the rolling brush mechanism to replace manpower, the tradition that the release agent is completely brushed by manpower in the industry is broken, the effect of continuously and automatically exuding the release agent from the oil absorption brush hair cylinder is realized by filling the release agent into the grid cylinder, and finally the effect of quantitatively adjusting the brushing amount can be realized by changing the interval between the oil quantity adjusting cylinder and the grid cylinder.

Description

Aluminum mould oiling device for house construction

Technical Field

The invention belongs to the field of building construction, and particularly relates to aluminum mould oiling equipment for house construction.

Background

The aluminum template is widely applied to concrete pouring, greatly promotes the development of assembly type concrete technology, and before concrete construction, the aluminum template needs to be brushed with a release agent, wherein the release agent mainly comprises mineral oil, silicon oil and the like, and can enable the aluminum template to be separated from the concrete better.

In the process of brushing the release agent, the brushing amount is controlled properly, too much brushing is performed, the ground is possibly polluted, the safety risk is possibly generated, and when the top layer is constructed, the surface of the aluminum template is excessively coated with oil, so that constructors can easily slide; too little coating can not be performed, otherwise, when the aluminum template is separated from the concrete, the concrete is adhered with the aluminum template, the surface of the concrete is damaged, and the construction quality is affected.

At present, the aluminum template is brushed with a release agent by manpower, a worker firstly removes concrete residues on the surface of the detached aluminum template, then dips the release agent from a charging basket by using a rolling brush, the rolling brush rolls on the aluminum template, the manual brushing is slow in efficiency, the slag removal is time-consuming, the brushing amount cannot be fixed, the influence of human factors is large, and the problems are in need of improvement.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides aluminum mould oiling equipment for building construction, which can replace manual slag removal and conduct quantitative brushing.

The technical scheme adopted by the invention is as follows: the invention provides aluminum mould oiling equipment for house construction, which comprises a conveying unit, a rolling brush mechanism, a slag removing mechanism and a conical barrier strip, wherein the rolling brush mechanism is arranged at the middle rear end above the conveying unit, the slag removing mechanism is arranged at the middle front end above the conveying unit, the conical barrier strip is arranged on the upper wall of the conveying unit, the conical barrier strip is positioned between the rolling brush mechanism and the slag removing mechanism, the conical barrier strip is used for intercepting concrete residues removed by the slag removing mechanism and preventing the concrete residues from flowing to an oiling area, the height of the conical barrier strip can be adjusted up and down so as to adapt to aluminum templates with different height specifications, and in order to enable the concrete residues on the surface of the aluminum templates to automatically roll down, the height of one end of the conveying unit, which is close to the slag removing mechanism, is lower than the height of one end of the rolling brush mechanism.

Further, the middle rear end symmetry of conveying unit upper wall is equipped with the round brush support, the well front end of conveying unit upper wall is equipped with the scarfing cinder crossbearer, and the round brush support is used for installing fixed round brush mechanism, and the scarfing cinder crossbearer is used for installing fixed scarfing cinder mechanism, the symmetry is equipped with the oil drain hole on the round brush support, and the oil drain hole is used for discharging the remaining release agent on the round brush mechanism to collect and recycle.

Further, the round brush mechanism includes recovery splash guard, round brush motor, oil absorption brush hair section of thick bamboo, grid cylinder, adjusting nut, oil mass adjusting cylinder, gyration lead to oily joint and flange, the round brush motor runs through and locates on the round brush support, the flange runs through and locates on the round brush support that keeps away from round brush motor one side, the output of round brush motor is located to the grid cylinder, oil absorption brush hair section of thick bamboo cover is located on the outer circumference wall of grid cylinder, and grid cylinder is used for splendid attire release agent, and release agent oozes to oil absorption brush hair section of thick bamboo from the gap of grid cylinder, and oil absorption brush hair section of thick bamboo's material can select for use sheep skin, all right, polyester fibre etc. as required, can absorb release agent better by oil absorption brush hair section of thick bamboo after being absorbed by oil absorption brush hair section of thick bamboo, be applied with brush to the aluminum mould board again, oil mass adjusting cylinder rotates the inner chamber of locating grid cylinder, and oil mass adjusting cylinder can be adjusted to release agent's the quantity to adjust, adjusting nut threaded connection locates the side of grid cylinder, and is used for adjusting the release agent between grid cylinder and the oil mass adjusting cylinder, and the oil mass adjusting cylinder is used for adjusting the release agent, and the oil mass is located the inner chamber of the oil mass adjusting cylinder is located to the inner chamber of a pipe is constantly connected to the oil mass joint from the top of the oil absorption brush hair section of thick bamboo, and is kept away from the oil absorption pipe, and the oil mass is kept away from the oil, and the oil absorption pipe is fixed to the oil pipe, and the oil absorption pipe is located on the inner chamber, and the oil pipe is fixed to the oil pipe.

Further, be equipped with the preformed hole on the splash guard circumference wall of retrieving, the preformed hole is used for installing oil pipe, retrieve splash guard round bottom symmetry and be equipped with the oil collecting tank, the oil collecting tank is used for collecting the release agent on the splash guard inner wall of retrieving to discharge the release agent from the oil drain hole, carry out reuse.

Further, the one end that the grid cylinder is close to the round brush motor is equipped with fixed square hole, fixed square hole locates on the output of round brush motor, the one end that the grid cylinder kept away from fixed square hole is equipped with the mounting hole, and the mounting hole is used for fixed oil mass adjusting cylinder, the inside wall of mounting hole is equipped with friction surface one, circumference array is equipped with circular arc grid between mounting hole and the fixed square hole, leaves the clearance between the adjacent circular arc grid, when being poured into the release agent in the grid cylinder, release agent can flow to on the oil absorption brush hair section of thick bamboo from the clearance between the circular arc grid, and oil absorption brush hair section of thick bamboo surface is soaked by the release agent, then is rolled the brush to on the aluminium template, one side of circular arc grid is equipped with circular arc recess, and circular arc recess is used for adjusting the speed that the release agent permeated to on the oil absorption brush hair section of thick bamboo.

Further, the oil mass adjusting cylinder comprises a circular plate I, a circular plate II, an adjusting grating and a threaded adjusting head, the threaded adjusting head penetrates through the mounting hole, an adjusting nut is installed in cooperation with the threaded adjusting head, the circular plate II is arranged on the side wall of the threaded adjusting head, the circular plate I is arranged at one end, close to a fixed square hole, in the grating roller, the circumference array of the adjusting grating is arranged between the circular plate I and the circular plate II, a friction surface II is arranged on the outer side wall of the circular plate II, the distance between the friction surface II and the friction surface I can be adjusted through the adjusting nut, the oil mass adjusting cylinder and the grating roller can be locked relatively or rotated relatively as required, a rotary groove is formed in the inner cavity of the threaded adjusting head, the rotary oil passing joint is connected in the rotary groove, the rotary groove can enable the rotary oil passing joint to be fixed, and the rotary oil mass adjusting cylinder cannot be followed.

Further, the outer circle radius of the adjusting grating is the same as the inner diameter of the circular arc groove, when the adjusting grating rotates left and right in the circular arc groove, the gap between the adjusting grating and the adjacent circular arc grating changes, so that the outflow gap of the release agent is adjusted, and finally the effect of adjusting the permeation rate of the release agent is realized.

Further, the slag removing mechanism comprises a slag removing motor, a first main shaft, a second main shaft, a driving wheel and a driven wheel, wherein the slag removing motor penetrates through the side wall of the slag removing transverse frame, the first main shaft is arranged at the output end of the slag removing motor, the driving wheel is arranged on the first main shaft, the driven wheel is meshed with the driving wheel, the second main shaft penetrates through the center of the driven wheel, one end of the second main shaft is fixed on the side wall of the slag removing transverse frame, the middle part of the second main shaft is fixed on a shaft seat arranged on the inner side of the upper wall of the slag removing transverse frame and is not marked in the drawing, a driving bevel gear is arranged at the tail end of the second main shaft, a lifting shaft penetrates through the middle part of the side wall of the slag removing transverse frame and can slide up and down relative to the slag removing transverse frame, a driven bevel gear is arranged on the lifting shaft and is meshed with the driving bevel gear, and long key bars are arranged in the middle part of the lifting shaft and can be ensured to be connected and fixed with the driven bevel gear in a key connection mode when the lifting shaft slides up and down.

Further, the scarfing cinder mechanism still includes support frame, pressure spring, slider, connecting rod, revolving stage, base and scraper, the support frame is located on the inside wall of scarfing cinder crossbearer, the support frame middle part is equipped with the spout, the slider slides and locates in the spout, the end of support frame is equipped with fixed heavy platform, fixed heavy platform is used for fixed driven bevel gear, the pressure spring is connected and is located between the inside wall of slider and scarfing cinder crossbearer, and the slider is outwards promoted by the pressure spring all the time, the upper end of connecting rod articulates and locates on the slider, the bottom of lift axle is located to the base is fixed to the base, the base can follow the lift axle and rotate or go up and down, the revolving stage runs through the lift axle and rotates to be connected and locate the base upper wall, the revolving stage upper wall is equipped with articulated seat, the bottom of connecting rod articulates locates on the articulated seat, the base lower wall is located to the scraper, the scraper both sides symmetry is equipped with the mounting groove, and the mounting groove is used for installing the scraper additional, can increase and decrease the scraper as required to change the working radius of scarfing cinder operation when acting on the aluminum template, under the effect of pressure spring, the scraper is pressed on the aluminum template all the time, thereby the clearance of concrete residue is more thoroughly cleared up.

Further, be equipped with electronic jar on the scarfing cinder crossbearer, electronic jar stretches out the end and is equipped with the voussoir, and the voussoir stretches out and draws back under electronic jar's effect, and when the voussoir stretches out, the voussoir can promote the lift axle and rise to avoid the scraper of bottom to produce the collision with the aluminium template, when the scraper reached aluminium template top, the voussoir was withdrawn, and the lift axle descends, and the scraper begins to paste tight aluminium template work under the effect of pressure spring.

The beneficial effects obtained by the invention by adopting the structure are as follows:

the rolling brush mechanism can replace workers to automatically brush, the release agent can be injected into the rolling brush mechanism through the oil pipe on the rotary oil-through joint, and finally the release agent seeps out from the surface of the rolling brush mechanism and is coated on the aluminum template without a device for dipping the release agent;

the grid roller and the oil quantity adjusting cylinder can rotate relatively, and the flow rate of the release agent exudation can be adjusted by rotating the oil quantity adjusting cylinder, so that the brushing quantity is adjusted, the adjustable quantitative brushing is realized, and the influence of human factors is avoided;

the adjusting nut can adjust the distance between the first friction surface on the grating roller and the second friction surface on the oil quantity adjusting cylinder, so that the grating roller and the oil quantity adjusting cylinder are relatively fixed or relatively loosened, the relative angle position between the grating roller and the oil quantity adjusting cylinder is convenient to adjust, the friction force between the grating roller and the oil quantity adjusting cylinder can be enhanced by the first friction surface and the second friction surface, and the grating roller and the oil quantity adjusting cylinder can not rotate relatively after being fixed;

the recycling splash-proof barrel can prevent the release agent from being splashed around when the oil absorption brush hair barrel rotates, so that the surrounding environment is prevented from being polluted, and the release agent on the circumferential wall is recycled through the oil collecting groove, so that the consumption of the release agent is reduced;

the slag removing mechanism can replace manual slag removing, slag removing efficiency is improved, the lifting shaft is in sliding connection with the driven bevel gear through the long key bar, the pressure spring is used for pushing the sliding block and the connecting rod, the base and the scraper are always pressed downwards, accordingly, the scraper can be always clung to the surface of the aluminum template, concrete residues on the surface of the aluminum template are scraped more thoroughly, mounting grooves are formed in two sides of the scraper, different operation radiuses can be achieved through additionally installing the scraper, and the slag removing mechanism is suitable for aluminum templates with different width specifications.

Drawings

FIG. 1 is a schematic diagram of a structure of an aluminum die oiling device for house construction;

FIG. 2 is an exploded view of the roller brush mechanism;

fig. 3 is a schematic view of the mounting structure of the oil absorbing bristle cylinder;

FIG. 4 is a schematic view of the construction of the recovery splash guard;

FIG. 5 is a broken view of a cross-sectional view of the rotary oil feed connection with the oil quantity adjustment cylinder and grille cylinder assembly;

FIG. 6 is a broken view of a cross-sectional view of the grating cylinder;

FIG. 7 is a broken view of the oil quantity adjusting cylinder;

FIG. 8 is a cross-sectional view of the cross-section of FIG. 3;

FIG. 9 is an enlarged view of section I of FIG. 8;

FIG. 10 is a schematic structural view of a slag removal mechanism;

FIG. 11 is a broken view of an assembly view of the turntable, base and doctor blade;

fig. 12 is a broken view of the support frame.

The device comprises a conveying unit, 2 parts of a rolling brush mechanism, 3 parts of a slag removing mechanism, 4 parts of a conical baffle bar, 5 parts of a rolling brush support, 6 parts of a drain hole, 7 parts of a slag removing transverse frame, 8 parts of a recycling splash-proof cylinder, 9 parts of a rolling brush motor, 10 parts of an oil absorbing brush cylinder, 11 parts of a grid cylinder, 12 parts of a regulating nut, 13 parts of an oil quantity regulating cylinder, 14 parts of a rotary oil passing joint, 15 parts of a fixed flange, 16 parts of an oil collecting groove, 17 parts of a reserved hole, 18 parts of an oil pipe, 19 parts of an arc grating, 20 parts of an arc groove, 21 parts of an installation hole, 22 parts of a friction surface, 23 parts of an installation square hole, 24 parts of a circular plate, 25 parts of a circular plate, 26 parts of a friction surface, 27 parts of an adjusting grating, 28 parts of a screw adjusting head, 29 parts of a rotary groove, 30 parts of a slag removing motor, 31 parts of a main shaft, 32 parts of a main shaft, 33 parts of a driving wheel, 34 parts of a driven wheel, 35 parts of a lifting shaft, 36 parts of a driving bevel gear, 37 parts of a driven bevel gear, 38 parts of a rotary oil passing joint, 15 parts of a fixed flange, 16 parts of a oil collecting groove, 17 parts of a pressure spring, a mounting hole, 22 parts of a sliding block, 42 parts of a friction surface, 43, a base, 43, 44 parts of a fixed bevel gear, 44, a base parts of a seat, 45, a rotary parts of a rotary seat, a 46, a rotary seat, a magnetic).

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1, the aluminum mould oiling device for house construction provided by the invention comprises a conveying unit 1, a rolling brush mechanism 2, a slag removing mechanism 3 and a conical baffle strip 4, wherein the rolling brush mechanism 2 is arranged at the middle rear end above the conveying unit 1, the slag removing mechanism 3 is arranged at the middle front end above the conveying unit 1, the conical baffle strip 4 is arranged on the upper wall of the conveying unit 1, the conical baffle strip 4 is positioned between the rolling brush mechanism 2 and the slag removing mechanism 3, the conical baffle strip 4 is used for intercepting concrete residues removed by the slag removing mechanism 3 and preventing the concrete residues from flowing to an oiling area, the height of the conical baffle strip 4 can be adjusted up and down to adapt to aluminum templates with different height specifications, and in order to enable the concrete residues on the surface of the aluminum templates to automatically roll down, the height of one end of the conveying unit 1, which is close to the slag removing mechanism 3, is lower than the height of one end of the rolling brush mechanism 2.

As shown in fig. 1, the middle rear end of the upper wall of the conveying unit 1 is symmetrically provided with a rolling brush support 5, the middle front end of the upper wall of the conveying unit 1 is provided with a slag removal transverse frame 7, the rolling brush support 5 is used for installing and fixing the rolling brush mechanism 2, the slag removal transverse frame 7 is used for installing and fixing the slag removal mechanism 3, the rolling brush support 5 is symmetrically provided with an oil drain hole 6, and the oil drain hole 6 is used for draining residual release agent on the rolling brush mechanism 2, so that the residual release agent is collected and reused.

As shown in fig. 1, 2, 3 and 5, the rolling brush mechanism 2 comprises a recycling splash-proof cylinder 8, a rolling brush motor 9, an oil absorption brush hair cylinder 10, a grid roller 11, an adjusting nut 12, an oil amount adjusting cylinder 13, a rotary oil-through joint 14 and a fixed flange 15, wherein the rolling brush motor 9 is arranged on the rolling brush support 5 in a penetrating manner, the fixed flange 15 is arranged on the rolling brush support 5 at one side far away from the rolling brush motor 9 in a penetrating manner, the grid roller 11 is arranged at the output end of the rolling brush motor 9, the oil absorption brush hair cylinder 10 is sleeved on the outer circumferential wall of the grid roller 11, the grid roller 11 is used for containing a release agent, the release agent seeps out of a gap of the grid roller 11 onto the oil absorption brush hair cylinder 10, the material of the oil absorption brush hair cylinder 10 can be selected from sheep skin, chinlon, nylon, dacron and the like as required, the release agent can be better absorbed by the oil absorption brush hair cylinder 10 and then coated on an aluminum template, the oil quantity adjusting cylinder 13 is rotationally arranged in the inner cavity of the grid roller 11, the oil quantity adjusting cylinder 13 can adjust the seepage quantity of the release agent, thereby adjusting the brushing quantity of the release agent on the aluminum template, the adjusting nut 12 is in threaded connection with the side end of the oil quantity adjusting cylinder 13, the adjusting nut 12 is used for adjusting the tightness between the grid roller 11 and the oil quantity adjusting cylinder 13, the rotary oil passing joint 14 is rotationally connected with the oil quantity adjusting cylinder 13, the rotary oil passing joint 14 is communicated with the inner cavity of the oil quantity adjusting cylinder 13, one end of the rotary oil passing joint 14, which is far away from the oil quantity adjusting cylinder 13, is fixedly arranged on the fixed flange 15, the recovery splash-proof cylinder 8 is circumferentially arranged on the oil absorbing brush hair cylinder 10, the recovery splash-proof cylinder 8 can prevent the release agent on the oil absorbing brush hair cylinder 10 from splashing to the periphery to pollute the environment, the oil pipe 18 is arranged on the rotary oil passing joint 14, the release agent flows into the grid roller 11 from the oil pipe 18, the continuous supply of the release agent is realized, no need to dip in the release agent from the outside.

As shown in fig. 4, a preformed hole 17 is formed in the circumferential wall of the recovery splash guard 8, the preformed hole 17 is used for installing an oil pipe 18, oil collecting grooves 16 are symmetrically formed in the round bottom of the recovery splash guard 8, the oil collecting grooves 16 are used for collecting and recovering the release agent on the inner wall of the splash guard 8, and the release agent is discharged from the oil drain hole 6 for reuse.

As shown in fig. 6, one end of the grid roller 11, which is close to the rolling brush motor 9, is provided with a fixed square hole 23, the fixed square hole 23 is arranged at the output end of the rolling brush motor 9, one end of the grid roller 11, which is far away from the fixed square hole 23, is provided with a mounting hole 21, the mounting hole 21 is used for fixing the oil quantity adjusting cylinder 13, the inner side wall of the mounting hole 21 is provided with a friction surface I22, a circular arc grid 19 is arranged between the mounting hole 21 and the fixed square hole 23 in a circumferential array, gaps are reserved between adjacent circular arc grids 19, when the grid roller 11 is filled with a release agent, the release agent flows out from the gaps between the circular arc grids 19 onto the oil absorbing brush cylinder 10, the surface of the oil absorbing brush cylinder 10 is soaked by the release agent and then is rolled and brushed onto the aluminum template, one side of the circular arc grid 19 is provided with a circular arc groove 20, and the circular arc groove 20 is used for adjusting the speed of the release agent penetrating onto the oil absorbing brush cylinder 10.

As shown in fig. 5 and 7, the oil quantity adjusting cylinder 13 includes a first circular plate 24, a second circular plate 25, an adjusting grid 27 and a threaded adjusting head 28, the threaded adjusting head 28 is penetrated in the mounting hole 21, the adjusting nut 12 is mounted in cooperation with the threaded adjusting head 28, the second circular plate 25 is arranged on the side wall of the threaded adjusting head 28, the first circular plate 24 is arranged at one end of the grid cylinder 11, which is close to the fixed square hole 23, the adjusting grid 27 is circumferentially arranged between the first circular plate 24 and the second circular plate 25, the outer side wall of the second circular plate 25 is provided with a friction surface 26, the distance between the friction surface 26 and the friction surface 22 can be adjusted through the adjusting nut 12, the oil quantity adjusting cylinder 13 and the grid cylinder 11 can be locked relatively or rotated relatively according to needs, a rotary groove 29 is arranged in the inner cavity of the threaded adjusting head 28, the rotary oil passing joint 14 is rotationally connected in the rotary groove 29, the rotary oil passing joint 14 can be fixed, and cannot rotate along with the oil quantity adjusting cylinder 13.

As shown in fig. 8 and 9, the outer radius of the adjusting grille 27 is the same as the inner radius of the circular arc groove 20, and when the adjusting grille 27 rotates left and right in the circular arc groove 20, the gap between the adjusting grille 27 and the adjacent circular arc grille 19 changes, so that the outflow gap of the release agent is adjusted, and finally, the effect of adjusting the permeation rate of the release agent is realized.

As shown in fig. 1 and 10, the slag removing mechanism 3 includes a slag removing motor 30, a first spindle 31, a second spindle 32, a driving wheel 33 and a driven wheel 34, the slag removing motor 30 is penetrated through the side wall of the slag removing transverse frame 7, the first spindle 31 is arranged at the output end of the slag removing motor 30, the driving wheel 33 is arranged on the first spindle 31, the driven wheel 34 is meshed with the driving wheel 33, the second spindle 32 is penetrated through the center of the driven wheel 34, one end of the second spindle 32 is fixed on the side wall of the slag removing transverse frame 7, the middle part is fixed on a shaft seat arranged at the inner side of the upper wall of the slag removing transverse frame 7, a driving bevel gear 36 is arranged at the tail end of the second spindle 32, a lifting shaft 35 is penetrated through the middle part of the side wall of the slag removing transverse frame 7, the lifting shaft 35 can slide up and down relative to the slag removing transverse frame 7, a driven bevel gear 37 is meshed with the driving bevel gear 36, a long key bar 38 is arranged at the middle part of the lifting shaft 35, and the long key bar 38 can ensure that the lifting shaft 35 slides up and down.

As shown in fig. 10-12, the slag removing mechanism 3 further comprises a supporting frame 39, a pressure spring 40, a sliding block 41, a connecting rod 42, a turntable 43, a base 44 and a scraper 45, wherein the supporting frame 39 is arranged on the inner side wall of the slag removing transverse frame 7, a sliding groove 49 is formed in the middle of the supporting frame 39, the sliding block 41 is slidably arranged in the sliding groove 49, a fixed sinking table 48 is arranged at the tail end of the supporting frame 39 and used for fixing a driven bevel gear 37, the pressure spring 40 is connected between the sliding block 41 and the inner side wall of the slag removing transverse frame 7, the sliding block 41 is always pushed outwards by the pressure spring 40, the upper end of the connecting rod 42 is hinged to the sliding block 41, the base 44 is fixedly arranged at the bottom of the lifting shaft 35, the base 44 can rotate or lift along the lifting shaft 35, the turntable 43 penetrates through the lifting shaft 35 to be connected to the upper wall of the base 44, a hinged seat 46 is arranged on the upper wall of the turntable 43, the bottom of the connecting rod 42 is hinged to the hinged seat 46, the scraper 45 is arranged on the lower wall of the base 44, mounting grooves 47 are symmetrically formed in two sides of the scraper 45, the mounting grooves 47 are used for additionally arranging the scraper 45, the scraper 45 can be increased or decreased according to requirements, the working radius of the scraper 45 is changed, when the scraper 45 acts on the aluminum template, and the pressure spring acts on the aluminum template, and the slag is always pressed on the aluminum template, so that the working radius of the slag is thoroughly removed.

As shown in fig. 1, an electric cylinder 50 is arranged on the slag removal transverse frame 7, a wedge block 51 is arranged at the extending end of the electric cylinder 50, the wedge block 51 stretches under the action of the electric cylinder 50, when the wedge block 51 extends, the wedge block 51 pushes the lifting shaft 35 to ascend, so that the bottom scraper 45 is prevented from colliding with an aluminum template, when the scraper 45 reaches the upper part of the aluminum template, the wedge block 51 is retracted, the lifting shaft 35 descends, and the scraper 45 starts to tightly cling to the aluminum template under the action of the pressure spring 40.

When the oil sucking brush hair cylinder is specifically used, a release agent is injected into the oil pipe 18 by using a pumping device, the release agent enters the grid roller 11 through the oil pipe 18, the rotary oil passing joint 14 and the oil quantity adjusting cylinder 13, the grid roller 11 is filled with the release agent, the release agent seeps out from between the arc grids 19 which are arranged at intervals, the seeped release agent can be absorbed by the oil sucking brush hair cylinder 10, and after the oil sucking brush hair cylinder 10 is soaked, the oil sucking brush hair cylinder 10 is used for rolling brushing on an aluminum template.

According to the effect of the actual rolling brush, the permeation quantity of the release agent between the arc grids 19 can be adjusted, the adjusting nut 12 is rotated, so that the grid roller 11 and the oil quantity adjusting cylinder 13 are not tightly pressed, the friction surface I22 and the friction surface II 26 are not tightly attached, the friction force between the grid roller 11 and the oil quantity adjusting cylinder 13 is reduced, at the moment, the oil quantity adjusting cylinder 13 can rotate relative to the grid roller 11, when the brushing quantity is large, the oil quantity adjusting cylinder 13 can be rotated, the distance between the adjusting grid 27 and the arc grids 19 is reduced, the permeation area is narrowed, when the brushing quantity is small, the oil quantity adjusting cylinder 13 is reversely rotated, the distance between the adjusting grid 27 and the arc grids 19 is increased, and the permeation area is expanded.

After the brush coating amount is adjusted, the conveying unit 1 is started, the aluminum template starts to move towards the slag removing mechanism 3 from the bottom of the conveying unit 1, at the moment, the electric cylinder 50 is in a fully-extending state, the wedge block 51 pushes the lifting shaft 35 to the highest point, collision is prevented when the scraper 45 meets the aluminum template, when the aluminum template moves to the lower part of the lifting shaft 35, the wedge block 51 retracts under the action of the electric cylinder 50, the lifting shaft 35 is lowered until the scraper 45 contacts the aluminum template, meanwhile, the pressure spring 40 can push the sliding block 41 outwards, the sliding block 41 drives the connecting rod 42 to rotate anticlockwise, the bottom of the connecting rod 42 drives the rotary table 43 to move downwards, and accordingly the lifting shaft 35, the base 44 and the scraper 45 are tightly pressed on the aluminum template downwards, and concrete residues can be scraped better when the scraper 45 rotates.

When the scraper 45 contacts the aluminum template, the slag removing motor 30 works, the driving bevel gear 36 is driven to rotate through the driving wheel 33 and the driven wheel 34, the driving bevel gear 36 drives the driven bevel gear 37 to rotate, the driven bevel gear 37 drives the lifting shaft 35 to rotate through the long key bar 38, so that the scraper 45 below the base 44 is driven to rotate, the surface of the aluminum template is scraped, and when the width size of the aluminum template is larger, the scraper 45 can be additionally arranged in the mounting grooves 47 at two sides of the scraper 45, so that the scraping operation in a larger range is realized.

The area where the aluminum mould plate is cleaned continuously moves towards the direction of the rolling brush mechanism 2 under the action of the conveying unit 1, and the cleaned concrete residues roll down to the lower part under the action of gravity, and part of the concrete residues are blocked by the conical barrier strips 4 and cannot enter the rear rolling brush area, and the conical barrier strips 4 can be adjusted according to the height of the aluminum mould plate.

When the aluminum mould plate reaches the lower part of the rolling brush mechanism 2, the oil absorption brush hair cylinder 10 is completely soaked by the release agent, the rolling brush motor 9 drives the grid roller 11 to rotate through the fixed square hole 23, the oil absorption brush hair cylinder 10 outside the grid roller 11 can rotate along with the release agent, the brush hair can brush the release agent on the aluminum mould plate, meanwhile, due to the action of the adjusting nut 12, the oil quantity adjusting cylinder 13 can rotate along with the grid roller 11 under the same friction force action of the friction surface I22 and the friction surface II 26, one end of the rotary oil passing joint 14 is rotationally connected and arranged in the rotary groove 29, and the other end of the rotary oil passing joint 14 is fixed on the fixed flange 15, so the rotary oil passing joint 14 can not rotate along with the rotary groove, the oil pipe 18 can not rotate along with the rotary groove, and the release agent can be ensured to be continuously poured into the grid roller 11 from a fixed position.

In the rotation process of the oil absorption bristle cylinder 10, the recycling splash-proof cylinder 8 outside the oil absorption bristle cylinder 10 can prevent the release agent from splashing and polluting the surrounding environment, the release agent is blocked on the inner wall by the recycling splash-proof cylinder 8 and gradually gathered in the oil collecting groove 16 at the bottom, and finally is discharged from the oil drain hole 6 to a collecting device for the next recycling.

When the aluminum templates with different widths need to be brushed, the recycling splash-proof barrel 8, the oil absorption brush hair barrel 10, the grid roller 11 and the oil quantity adjusting barrel 13 with corresponding dimensions can be replaced, or the aluminum templates can be brushed for a plurality of times.

Therefore, the slag removal work and the brushing work of the aluminum template are completed, the labor intensity of workers is reduced, the efficiency is improved, the brushing quality is stable, and the influence of human factors is small.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (1)

1. Aluminum mould oiling device for house construction, which is characterized in that: comprising the steps of (a) a step of,

the conveying unit (1) is used for conveying the aluminum templates, and rolling brush brackets (5) are symmetrically arranged at the middle and rear ends of the upper wall of the conveying unit (1);

the rolling brush mechanism (2) is arranged at the middle rear end above the conveying unit (1), the rolling brush mechanism (2) comprises a rolling brush motor (9), a grating roller (11) and an oil quantity adjusting cylinder (13), the rolling brush motor (9) is arranged on the rolling brush support (5) in a penetrating mode, the grating roller (11) is arranged at the output end of the rolling brush motor (9), and the oil quantity adjusting cylinder (13) is arranged in an inner cavity of the grating roller (11) in a rotating mode;

the slag removing mechanism (3) is arranged at the middle front end above the conveying unit (1);

the conical barrier strip (4) is arranged between the rolling brush mechanism (2) and the slag removing mechanism (3);

the middle front end of the upper wall of the conveying unit (1) is provided with a slag removal transverse frame (7), and oil drain holes (6) are symmetrically formed in the rolling brush support (5);

the rolling brush mechanism (2) further comprises a recycling splash-proof barrel (8), an oil absorption brush barrel (10), an adjusting nut (12), a rotary oil passing joint (14) and a fixing flange (15), wherein the fixing flange (15) is arranged on the rolling brush support (5) far away from one side of the rolling brush motor (9) in a penetrating mode, the oil absorption brush barrel (10) is sleeved on the outer circumferential wall of the grid roller (11), the adjusting nut (12) is connected with the side end of the oil quantity adjusting barrel (13) in a threaded mode, the rotary oil passing joint (14) is connected with the oil quantity adjusting barrel (13) in a rotating mode, one end, far away from the oil quantity adjusting barrel (13), of the rotary oil passing joint (14) is fixedly arranged on the fixing flange (15), the recycling splash-proof barrel (8) is arranged on the oil absorption brush barrel (10) in a surrounding mode, and an oil pipe (18) is arranged on the rotary oil passing joint (14);

the novel roller brush is characterized in that one end of the grating roller (11) close to the roller brush motor (9) is provided with a fixed square hole (23), the fixed square hole (23) is formed in the output end of the roller brush motor (9), one end, far away from the fixed square hole (23), of the grating roller (11) is provided with a mounting hole (21), the inner side wall of the mounting hole (21) is provided with a friction surface I (22), a circular arc grating (19) is arranged between the mounting hole (21) and the fixed square hole (23) in a circumferential array, and one side of the circular arc grating (19) is provided with a circular arc groove (20);

the oil quantity adjusting cylinder (13) comprises a first circular plate (24), a second circular plate (25), an adjusting grid (27) and a threaded adjusting head (28), wherein the threaded adjusting head (28) is arranged in the mounting hole (21) in a penetrating mode, the second circular plate (25) is arranged on the side wall of the threaded adjusting head (28), the first circular plate (24) is arranged at one end, close to a fixed square hole (23), in the grid roller (11), the circumferential array of the adjusting grid (27) is arranged between the first circular plate (24) and the second circular plate (25), a second friction surface (26) is arranged on the outer side wall of the second circular plate (25), a rotary groove (29) is formed in an inner cavity of the threaded adjusting head (28), and the rotary oil passing joint (14) is connected in the rotary groove (29) in a rotating mode.

The circumference wall of the recovery splash-proof barrel (8) is provided with preformed holes (17), and the round bottom of the recovery splash-proof barrel (8) is symmetrically provided with oil collecting grooves (16);

the outer circle radius of the adjusting grating (27) is the same as the inner diameter of the circular arc groove (20);

the slag removing mechanism (3) comprises a slag removing motor (30), a first main shaft (31), a second main shaft (32), a driving wheel (33) and a driven wheel (34), wherein the slag removing motor (30) penetrates through the side wall of a slag removing transverse frame (7), the first main shaft (31) is arranged at the output end of the slag removing motor (30), the driving wheel (33) is arranged on the first main shaft (31), the driven wheel (34) is meshed with the driving wheel (33), the second main shaft (32) penetrates through the center of the driven wheel (34), a driving bevel gear (36) is arranged at the tail end of the second main shaft (32), a lifting shaft (35) is penetrated through the middle part of the side wall of the slag removing transverse frame (7), a driven bevel gear (37) is arranged on the lifting shaft (35), the driven bevel gear (37) is meshed with the driving bevel gear (36), and a long key bar (38) is arranged at the middle part of the lifting shaft (35).

The slag removing mechanism (3) further comprises a supporting frame (39), a pressure spring (40), a sliding block (41), a connecting rod (42), a rotary table (43), a base (44) and a scraper (45), wherein the supporting frame (39) is arranged on the inner side wall of the slag removing transverse frame (7), a sliding groove (49) is formed in the middle of the supporting frame (39), the sliding block (41) is slidably arranged in the sliding groove (49), a fixed sinking table (48) is arranged at the tail end of the supporting frame (39), the fixed sinking table (48) is used for fixing a driven bevel gear (37), the pressure spring (40) is connected between the sliding block (41) and the inner side wall of the slag removing transverse frame (7), the upper end of the connecting rod (42) is hinged on the sliding block (41), the base (44) is fixedly arranged at the bottom of the lifting shaft (35), the rotary table (43) penetrates through the upper wall of the lifting shaft (35) to be connected and is arranged on the upper wall of the base (44), the bottom of the connecting rod (42) is hinged on the hinged seat (46), and the scraper (45) is symmetrically arranged on the lower sides of the base (44);

an electric cylinder (50) is arranged on the slag removal transverse frame (7), and a wedge block (51) is arranged at the extending end of the electric cylinder (50).