Automatic wall brick pasting device
Technical Field
The utility model relates to the field related to building construction, in particular to an automatic wall brick sticking device.
Background
The building construction refers to the production activity of engineering construction implementation stage, which is the construction process of various buildings, and can be said to be the process of changing various lines on a design drawing into real objects at a designated place.
The automatic wall brick sticking device is the combination of the modern electronic technology and the ancient industry, is a sign of the progress of the modern society, fills up a blank of the building industry in China, and solves the problem of manual ceramic brick sticking.
Manual tiling cannot work for twenty-four hours, the efficiency is low, and in addition, the process of tiling generates cancerogenic gas, so that the harm to the body of a constructor is great, and an automatic wall tile plastering device is needed for tiling.
The angle is easy to deviate after the automatic ceramic tile taking of the existing automatic wall brick sticking device, influences the horizontal angle of the ceramic tile, leads to the efficiency of follow-up ceramic tile, and the existing automatic wall brick sticking device is inconsistent in the horizontal direction of the wall brick due to uneven cement plastering, and is easy to empty.
Disclosure of Invention
Therefore, in order to solve the above-mentioned shortcomings, the present utility model provides an automatic wall brick sticking device.
In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an automatic wall brick device, includes the fixing base, fixing base bottom four corners respectively is equipped with a set of pulley, a set of spout is seted up at fixing base top middle part, the embedding screw rod in the spout of fixing base, first motor case is connected at fixing base front end middle part, a set of slide that is run through by the screw rod in the spout of fixing base, the slide top is equipped with the rotary device who is used for horizontal rotation angle, rotary device top connection is controlled horizontal position's mobile device, mobile device top embedding is used for adjusting high elevating gear still includes the wall brick device, the wall brick device includes rotary mechanism, vibration absorption mechanism and wall brick laminating mechanism, the elevating gear right side is equipped with the rotary mechanism of adjustment rotation angle, the rotary mechanism right side is equipped with the vibration absorption mechanism of absorption wall brick, a set of wall brick laminating mechanism is connected respectively at vibration absorption mechanism upper and lower both ends.
Preferably, the rotary mechanism comprises a connecting column, the right side of the lifting device is connected with the first shell through the connecting column, the upper end of the left side of the first shell is connected with a second motor box with a first motor inside, an output shaft of the first motor penetrates through the right side of the second motor box and the upper end of the left side of the first shell and then is connected with a first driving pulley at the upper end in the first shell, a first driven pulley is arranged at the lower end in the first shell, the outer side of the first driving pulley is connected with the outer side of the first driven pulley through a first synchronous belt, the first driven pulley is connected with a rotating shaft penetrating through the lower end of the right side of the first shell, and the right end of the rotating shaft is connected with a connecting seat.
Preferably, the vibration absorbing mechanism comprises springs, one ends of a group of springs are respectively connected with four corners of the right side of the connecting seat at equal intervals, one end of a vibration motor is connected with the middle part of the right side of the connecting seat, the other end of the vibration motor, four groups of the springs are connected with the connecting seat, a group of suckers are respectively arranged at the front end and the rear end of the right side of the connecting seat, and a group of connecting shafts are respectively arranged at the upper end and the lower end of the front side and the rear side of the connecting seat.
Preferably, the wall brick laminating mechanism comprises a second shell, a group of second shells are respectively connected to the front ends of the connecting shafts at the upper end and the lower end of the front side of the connecting seat, a group of second motors are respectively arranged on the inner sides of the front ends of the second shells, the output shafts of the second motors penetrate through the inner sides of the front ends of the second shells and then are connected with a second driving belt wheel on the inner sides of the second shells, a second driven belt wheel is arranged on the outer sides of the inner sides of the second shells, the outer sides of the second driving belt wheels are connected with the outer sides of the second driven belt wheels through second synchronous belts, the second driven belt wheels are connected with rotating rods penetrating through the outer sides of the back of the second shells, and connecting plates are arranged on the upper ends of the rotating rods.
Preferably, a damper is arranged at the joint of the rotating shaft and the connecting seat.
Preferably, the length of the adapter posts is greater than the length of the second motor housing.
Preferably, a damper is arranged at the joint of the rotary rod and the second shell.
Preferably, the top of the connecting plate is made of rubber, and the length of the connecting plate is equal to that of the connecting seat.
The utility model has the beneficial effects that:
according to the utility model, the rotating mechanism is arranged on the right side of the lifting device, the first driving belt pulley is driven to rotate by the first motor, the first driving belt pulley drives the first driven belt pulley to rotate by the first synchronous belt, the first driven belt pulley rotates to adjust the angle of the connecting seat by the rotating shaft, and the deviation of the angle of the device is corrected, and the horizontal angle of the tile is included.
According to the utility model, the vibration adsorption mechanism and the wall brick attaching mechanism are arranged on the right side of the rotating mechanism, the second driving belt pulley is driven to rotate by the second motor, the second driven belt pulley is driven to rotate by the second synchronous belt, the second driven belt pulley is driven to rotate by the rotating rod, so that the connecting plate is attached to the wall brick, the wall brick is vibrated by matching with the vibration motor and the spring, cement in the wall brick is rapidly and uniformly wiped under the action of vibration, the attaching level of the wall brick is consistent, and the occurrence of hollowness is avoided.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of the interior of the structure of the present utility model;
FIG. 3 is a schematic view of a tile installation of the present utility model;
FIG. 4 is a schematic view of the inside of a tile installation according to the present utility model;
FIG. 5 is a schematic view of a wall-mounting mechanism according to the present utility model;
FIG. 6 is a schematic view of the inside of the wall brick attaching mechanism of the present utility model.
Wherein: the device comprises a fixed seat-1, a pulley-2, a screw-3, a first motor case-4, a sliding seat-5, a rotating device-6, a moving device-7, a lifting device-8, a tiling device-9, a rotating mechanism-91, a vibration absorbing mechanism-92, a wall brick attaching mechanism-93, a connecting column-911, a first shell-912, a second motor case-913, a first motor-914, a first driving belt wheel-915, a first driven belt wheel-916, a first synchronous belt-917, a rotating shaft-918, a connecting seat-919, a spring-921, a vibrating motor-922, a connecting seat-923, a sucking disc-924, a connecting shaft-925, a second shell-931, a second motor-932, a second driving belt wheel-933, a second driven belt wheel-934, a second synchronous belt-935, a rotating rod-936 and a connecting plate-937.
Detailed Description
In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.
Referring to fig. 1-3, the present utility model provides an automatic wall tile attaching device, which comprises a fixing base 1, a pulley 2, a screw 3, a first motor case 4, a sliding seat 5, a rotating device 6, a moving device 7, a lifting device 8 and a tile attaching device 9;
wherein, fixing base 1 bottom four corners respectively through bolt fixed connection a set of pulley 2, conveniently remove this device to suitable position, a set of spout is offered at fixing base 1 top middle part, fixing base 1's spout internal motion embedding screw 3, fixing base 1 front end middle part has welded first motor case 4, embedding a set of slide 5 that is run through by screw 3 and threaded connection in fixing base 1's the spout, motor in first motor case 4 drives screw 3 and rotates, make slide 5 reciprocate along fixing base 1 top spout, slide 5 top has welded the rotary device 6 that is used for horizontal rotation angle, adjust this device's angle, conveniently get the wall brick automatically and carry out subsequent tile, rotary device 6 top adjustment is used for adjusting controlling the mobile device 7 of horizontal position, adjust this device front and back position, mobile device 7 top embedding is used for adjusting high elevating gear 8, the convenience is tile to the wallboard of eminence, tile device 9 includes rotary mechanism 91, elevating gear 8 right side has welded rotary mechanism 91 of adjustment rotation angle, adjust tile angle, the adsorption mechanism 92 of rotary mechanism right side cup joint wall adsorption mechanism, it is better to make the wall brick is equipped with in the adsorption mechanism 92 for the subsequent tile of vibration of following tile, make the wall brick is equipped with the vibration mechanism is better, make the tile is equipped with the vibration mechanism is equipped with the tile 93 respectively.
Referring to fig. 4, the present utility model provides an automatic wall brick attaching device, the rotating mechanism 91 includes a connecting post 911, the right side of the lifting device 8 is welded with the first casing 912 through the connecting post 911, the upper left end of the first casing 912 is welded with a second motor housing 913 having a first motor 914 inside, the output shaft of the first motor 914 penetrates through the right side of the second motor housing 913 and the upper left end of the first casing 912 and then is tightly inserted into a first driving pulley 915 at the upper inner end of the first casing 912, the first driving pulley 915 rotates under the start of the first motor 914, the lower inner end of the first casing 912 is provided with a first driven pulley 916, the outer side of the first driving pulley 915 is connected with the outer side of the first driven pulley 916 through a first synchronous belt 917, the first driving pulley 915 rotates to drive the first driven pulley 916 through the first synchronous belt 917, the first driven pulley 916 is connected with a rotating shaft 918 penetrating through the lower right end of the first casing 912, the right end of the rotating shaft 918 is connected with a connecting seat 919, and the first driven pulley 916 rotates through the rotating shaft 918 to drive the connecting seat 919;
the vibration absorbing mechanism 92 comprises springs 921, four corners on the right side of a connecting seat 919 are respectively bonded with one end of a group of springs 921 at equal intervals by using strong glue, one end of a vibration motor 922 is sleeved at the middle part on the right side of the connecting seat 919, the other end of the vibration motor 922 and the other ends of four groups of springs 921 are bonded with a connecting seat 923, the vibration of the vibration motor 922 to the connecting seat 921 is slowed down by the four groups of springs 921, a group of suckers 924 are respectively arranged at the front end and the rear end of the right side of the connecting seat 923, tiles are absorbed by wall tiles, and a group of connecting shafts 925 are respectively welded at the upper end and the lower end of the front side and the rear side of the connecting seat 923;
wherein, the junction of rotation axis 918 and connecting seat 919 is equipped with the damping, prevents that connecting seat 919 rotatory in-process from dropping under the action of gravity, and the length of linking post 911 is greater than the length of second motor case 913, prevents that motor case 913 from colliding with elevating gear 8, influences elevating gear 8's use, and the junction of rotary rod 936 and second casing 931 is equipped with the damping, prevents that rotary rod 936 from dropping under the action of gravity in-process.
Referring to fig. 5-6, the present utility model provides an automatic wall brick attaching device, the wall brick attaching mechanism 93 includes a second housing 931, front ends of connecting shafts 925 at upper and lower ends of a front side of a connecting seat 923 are respectively sleeved with a set of second housings 931, inner sides of front ends of the second housings 931 are respectively fixedly connected with a set of second motors 932 through bolts, an output shaft of the second motors 932 penetrates through inner sides of front ends of the second housings 931 and then is tightly inserted into a second driving pulley 933 inside the second housings 931, the second motors 932 are started to drive the second driving pulley 933 to rotate, a second driven pulley 934 is arranged outside the inner sides of the second housings 931, the outer sides of the second driving pulley 933 are connected with the outer sides of the second driven pulleys 934 through second synchronous belts 935, the second driving pulley 934 rotates through the second synchronous belts 935, the second driven pulleys 936 are sleeved with rotating rods 936 penetrating through the outer sides of the second housings 931, and the upper end of the rotating rods 936 are sleeved with connecting plates 937;
wherein, the top of the connecting plate 937 is made of rubber, so that the connecting plate 937 is scratched when being attached to the wall brick, the length of the connecting plate 937 is equal to that of the connecting seat 923, and the connecting plate 937 is guaranteed to be well attached to the wall brick.
The working principle is as follows:
the device is moved to a proper position through the pulley 2, the rotating device 6 is started to rotate the tile device 9 to a proper direction, then the lifting device 8 is started to adjust the tile device 9 to a proper height through the connecting column 911, and the moving device 7 is started to adjust the tile device 9 to a proper position so that the sucker 924 absorbs the wall bricks to be tiled;
starting a first motor case 4 at the front end of the fixed seat 1, enabling the screw rod 3 to rotate, enabling the sliding seat 5 to move to a proper position, then starting the rotating device 6 to rotate the tile attaching device 9 to a proper direction, then starting the lifting device 8 to adjust the tile attaching device 9 to a proper height, then starting a first motor 914 in a second motor case 913 of the rotating mechanism 91 to drive a first driving belt pulley 915 in the first casing 912 to rotate, enabling the first driving belt pulley 915 to drive a first driven belt pulley 916 to rotate through a first synchronous belt 917, adjusting the vibration absorbing mechanism 92 to a proper angle through rotation of the rotating shaft 918, and starting the moving device 7 to move the wall brick to a position where the wall brick is required to be attached;
then, a second motor 932 of the wall brick attaching mechanism 93 is started, so that a second driving pulley 933 in a second housing 931 rotates, the second driving pulley 933 rotates to drive a second driven pulley 934 to rotate through a second synchronous belt 935, a rotating rod 936 rotates to a proper angle, a connecting plate 937 is attached to a wall brick, then a vibrating motor 922 is started, four groups of springs 921 on the right side of a connecting seat 919 are matched to vibrate the connecting seat 923, the wall brick attaching mechanism 93 connected by a connecting shaft 925 vibrates the wall brick, and cement in the wall brick is quickly and evenly opened to reach the same horizontal plane;
and then the vibration motor 922 is turned off, the steps are repeated to paste the wall bricks, and the purpose of automatic wall bricks is achieved.
The utility model provides an automatic wall brick sticking device, a rotating mechanism 91 is arranged on the right side of a lifting device 8, a first driving belt pulley 915 is driven to rotate by a first motor 914, the first driving belt pulley 915 drives a first driven belt pulley 916 to rotate by a first synchronous belt 917, the first driven belt pulley 916 rotates to adjust the angle of a connecting seat by a rotating shaft 918, the deviation of the angle of the device is corrected, the horizontal angle of a sticking brick is included, a vibration adsorption mechanism 92 and a wall brick sticking mechanism 93 are arranged on the right side of the rotating mechanism 91, a second driving belt pulley 933 is driven to rotate by a second motor 932, the second driving belt pulley 933 rotates to drive a second driven belt pulley 934 to rotate by a second synchronous belt 935, a rotating rod 936 is driven to rotate, a connecting plate 937 is stuck to the wall brick, the wall brick is vibrated by matching with a vibration motor 922 and a spring 921, cement in the wall brick is quickly and uniformly spread under the vibration action, the sticking level of the wall brick is consistent, and empty drum is avoided.
The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.