阅读说明：本技术 一种用于建筑电气施工的安全防护装置 (Safety protection device for building electrical construction ) 是由 郜彦岭 丁晨 常鼎毅 郭孟华 杨朱君 任现伟 吕国锋 张婵娟 于 2021-07-15 设计创作，主要内容包括：一种用于建筑电气施工的安全防护装置,包括两块相互平行的侧板,侧板上下端部有两个盲孔,盲孔内安装第一电动伸缩杆,盲孔外端部安装套筒,第一电动伸缩杆上安装轮架,轮架与第一电动伸缩杆间有压力传感器,轮架内安装电动滚轮,两侧板相对的一侧安装导轨,导轨外部安装电动滑块,两电动滑块间安装箱体,箱体有开槽装置,侧板的端部有第一动力装置。本发明通过电动滑块与电动滚轮的配合,即可满足各种开槽需求开设直线槽跟弧形槽等,且无需人工进行高处操作,有效的减少高处施工过程中的安全隐患,作为施工平台使用时,不仅能够实现升降功能,同时还能进行前后位置调节,且本发明还能作为物料升降运输平台使用,为建筑室内施工提供了很大便利。(The utility model provides a safety device for building electrical construction, including two curb plates that are parallel to each other, the tip has two blind holes about the curb plate, install first electric telescopic handle in the blind hole, the outer tip installation sleeve of blind hole, the last wheel carrier of installing of first electric telescopic handle, there is pressure sensor between wheel carrier and first electric telescopic handle, install electronic gyro wheel in the wheel carrier, the relative one side-mounting guide rail of both sides board, the electronic slider of guide rail externally mounted, install the box between two electronic sliders, the box has the fluting device, the tip of curb plate has first power device. According to the invention, through the matching of the electric sliding block and the electric roller, the requirements of various slotting on the arrangement of the linear groove, the arc-shaped groove and the like can be met, manual high-altitude operation is not required, the potential safety hazard in the high-altitude construction process is effectively reduced, when the electric lifting platform is used as a construction platform, the lifting function can be realized, meanwhile, the front-back position adjustment can be carried out, and the electric lifting platform can also be used as a material lifting and transporting platform, so that great convenience is provided for indoor construction of buildings.)

1. The utility model provides a safety device for building electrical construction which characterized in that: the electric telescopic handle comprises two parallel side plates (1), the upper end part and the lower end part of each side plate (1) are respectively provided with two blind holes (2) which are distributed front and back, a first electric telescopic handle (3) coaxial with the blind holes (2) is installed in the blind holes (2) in a rotating mode, the outer end parts of the blind holes (2) are respectively installed with a sleeve (4) in a rotating mode, the outer ends of the sleeves (4) are respectively positioned outside the corresponding blind holes (2), movable rods of the first electric telescopic handles (3) penetrate through the corresponding sleeves (4) and are positioned outside the corresponding blind holes (2), the movable rods of the first electric telescopic handles (3) are connected with the corresponding sleeves (4) through splines, the movable ends of the first electric telescopic handles (3) are respectively and fixedly provided with a wheel carrier (5), pressure sensors (24) are installed between the wheel carriers (5) and the corresponding first electric telescopic handles (3), and electric idler wheels (6) are respectively installed in the wheel carriers (5), the equal fixed mounting of one side that both sides board (1) are relative vertical guide rail (7), guide rail (7) outside all installs sliding fit's electronic slider (8) with it, fixed mounting box (9) between two electronic slider (8), box (9) are equipped with the fluting device, the fluting device can be respectively to box (9) top surface, the bottom surface and carry out the fluting operation at the back, the tip of curb plate (1) all is equipped with driving sleeve (4) pivoted power device, first electric telescopic handle (3), electronic gyro wheel (6), electronic slider (8), the fluting device is connected with the power respectively.

2. A safety shield for electrical construction of buildings according to claim 1 wherein: the slotting device comprises a first telescopic shaft motor (10), a second telescopic shaft motor (11), an output shaft of a third telescopic shaft motor (12), a first through hole (13), a slotting cutter (14), a shaft sleeve (15) and a plurality of second electric telescopic rods (16), wherein the first telescopic shaft motor (10) with an upward output shaft, the second telescopic shaft motor (11) with a downward output shaft and the third telescopic shaft motor (12) with a backward output shaft are fixedly installed in a box body (9) through supports, the first through hole (13) is respectively formed in the middle of the top surface, the bottom surface and the back surface of the box body (9), the output shaft of the first telescopic shaft motor (10), the second telescopic shaft motor (11) and the third telescopic shaft motor (12) respectively penetrates through the first through hole (13) on the corresponding side and is rotatably connected with the first through hole (13), the first telescopic shaft motor (10), the second telescopic shaft motor (11) and the third telescopic shaft motor (12) are connected with the output shaft in a rotating mode, The slotting cutter (14) is detachably mounted at the movable end of an output shaft of the third telescopic shaft motor (12) respectively, the shaft sleeves (15) are rotatably mounted at the inner ends of the movable ends of the output shaft of the first telescopic shaft motor (10), the second telescopic shaft motor (11) and the third telescopic shaft motor (12), a plurality of uniformly distributed movable ends are fixedly mounted at the outer sides of the inner ends of the first through holes (13) respectively towards the second electric telescopic rods (16) at the middle parts of the box body (9), shaft sleeves (15) corresponding to the movable ends of the second electric telescopic rods (16) at the outer sides of the inner ends of the same first through holes (13) are fixedly connected, and the first telescopic shaft motor (10), the second telescopic shaft motor (11), the third telescopic shaft motor (12) and the second electric telescopic rods (16) are connected with a power supply respectively.

3. A safety shield for electrical construction of buildings according to claim 2 wherein: the top surface fixed mounting of box (9) conical feeder hopper (17) big-end-up, the upper end of feeder hopper (17) is located fluting cutter (14) below, box (9) internal fixed mounting crushed aggregates collection device (18), four evenly distributed's feed inlet (19) are seted up to box (9) top surface, feed inlet (19) all communicate with each other with crushed aggregates collection device (18), communicating relief hole (20) with crushed aggregates collection device (18) are seted up to the bottom surface of box (9), crushed aggregates collection device (18) can absorb the dust with the concrete block, crushed aggregates collection device (18) are connected with the power.

4. A safety shield apparatus for use in the electrical construction of buildings according to claim 1, 2 or 3 wherein: the first power device comprises a second motor (21), a first gear (22) and a second gear (23), the middle parts of the two ends of the side plate (1) are respectively fixedly provided with the second motor (21) with two output shafts far away from the middle part of the side plate (1), the second motor (21) corresponds to the sleeves (4) on the corresponding side one by one, the output shafts of the second motor (21) are respectively fixedly provided with the first gear (22), the periphery of the upper part of each sleeve (4) is respectively and fixedly provided with the second gear (23), the second gears (23) are respectively engaged with the corresponding first gears (22), and the second motors (21) are respectively connected with a power supply.

Technical Field

The invention belongs to the field of indoor construction equipment of buildings, and particularly relates to a safety protection device for building electrical construction.

Background

In present building decoration in-process, wall and ground fluting water and electricity pipeline of arranging is one of the important step of water and electricity installation, but now go on to the fluting of building wall and ground is manual mostly, and the manual work is carried out fluting operation work volume and is big and the construction difficulty, it is bigger to especially carry out the construction degree of difficulty to building top surface and wall eminence, and operate and get up and have very big potential safety hazard, the manual work is seted up the arc wall work volume simultaneously and is operated complicacy greatly, it is hard to take trouble, and not good control fluting degree of depth.

Disclosure of Invention

The invention provides a safety protection device for building electrical construction, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme:

a safety protection device for building electrical construction comprises two parallel side plates, the upper and lower end parts of each side plate are respectively provided with two blind holes distributed front and back, first electric telescopic rods coaxial with the blind holes are rotatably installed in the blind holes, the outer end parts of the blind holes are respectively rotatably provided with a sleeve, the outer ends of the sleeves are respectively positioned outside the corresponding blind holes, movable rods of the first electric telescopic rods penetrate through the corresponding sleeves and are positioned outside the corresponding blind holes, the movable rods of the first electric telescopic rods are connected with the corresponding sleeves through splines, wheel carriers are fixedly installed at the movable ends of the first electric telescopic rods, pressure sensors are installed between the wheel carriers and the corresponding first electric telescopic rods, electric rollers are respectively installed in the wheel carriers, vertical guide rails are fixedly installed at the opposite sides of the two side plates, electric sliding-matched sliding sliders are installed outside the guide rails, a box body is fixedly installed between the two electric sliders, the box is equipped with the fluting device, and the fluting device can be respectively to box top surface, bottom surface and back fluting operation, and the tip of curb plate all is equipped with the first power device of drive sleeve pivoted, and first electric telescopic handle, electronic gyro wheel, electronic slider, fluting device are connected with the power respectively.

The safety protection device for building electrical construction comprises an output shaft of a first telescopic shaft motor, an output shaft of a second telescopic shaft motor, an output shaft of a third telescopic shaft motor, a first through hole, a slotting cutter, a shaft sleeve and a plurality of second electric telescopic rods, wherein the first telescopic shaft motor with the upward output shaft, the second telescopic shaft motor with the downward output shaft and the third telescopic shaft motor with the rearward output shaft are fixedly installed in a box body through a support respectively, the middle parts of the top surface, the bottom surface and the back surface of the box body are respectively provided with a first through hole, the output shafts of the first telescopic shaft motor, the second telescopic shaft motor and the third telescopic shaft motor respectively penetrate through the first through holes on the corresponding sides and are rotatably connected with the first through holes, the movable ends of the output shafts of the first telescopic shaft motor, the second telescopic shaft motor and the third telescopic shaft motor are respectively and detachably provided with the slotting cutter, the first telescopic shaft motor, The inner ends of the output shaft movable ends of the second telescopic shaft motor and the third telescopic shaft motor rotate respectively to install shaft sleeves, the outer sides of the inner ends of the first through holes are fixedly provided with a plurality of second electric telescopic rods with uniformly distributed movable ends facing the middle part of the box body respectively, the movable ends of the second electric telescopic rods positioned on the outer sides of the inner ends of the same first through holes are fixedly connected with corresponding shaft sleeves, and the first telescopic shaft motor, the second telescopic shaft motor, the third telescopic shaft motor and the second electric telescopic rods are connected with a power supply respectively.

A safety device for building electrical construction, the conical feeder hopper of top surface fixed mounting big-end-up of box, the upper end of feeder hopper is located fluting cutter below, fixed mounting crushed aggregates collection device in the box, four evenly distributed's feed inlet is seted up to the box top surface, the feed inlet all communicates with each other with crushed aggregates collection device, the bottom surface of box set up with the communicating relief hole of crushed aggregates collection device, crushed aggregates collection device can absorb the dust with the concrete block, crushed aggregates collection device is connected with the power.

The safety protection device for building electrical construction comprises a first power device, a second power device and a power supply, wherein the first power device comprises a second motor, a first gear and a second gear, the middle parts of two ends of a side plate are respectively and fixedly provided with two second motors, two output shafts of the two second motors are far away from the middle part of the side plate, the second motors correspond to sleeves on corresponding sides one by one, the output shafts of the second motors are respectively and fixedly provided with the first gears, the peripheries of the upper parts of the sleeves are respectively and fixedly provided with the second gears, the second gears are respectively meshed and matched with the corresponding first gears, and the second motors are respectively connected with the power supply.

The invention has the advantages that: the invention belongs to multifunctional construction equipment, which is suitable for interior decoration construction of house buildings; the invention is used as wall surface and top surface slotting equipment for construction, a first electric telescopic rod, an electric roller, an electric slider and a slotting device are respectively connected with a controller, and in the case of slotting the wall surface and the ground of a building, as shown in figure 1, the electric roller at the upper end part of a side plate is respectively contacted with the top surface of the building, the electric roller at the lower end part of the side plate is respectively contacted with the ground of the building, two electric sliders are respectively moved to the uppermost end along a corresponding guide rail, the first electric telescopic rod below the side plate is extended, the first electric telescopic rod above the side plate is contracted, so that the slotting device is contacted with the top surface of the building, the pressure value of each pressure sensor is the same, the electric rollers move along the left and right direction to open a horizontal groove on the top surface of the building, when a front and back direction pipe distribution groove needs to be opened, the electric slider moves downwards along the guide rail, then the first power device drives a corresponding sleeve to rotate ninety degrees, when the arc-shaped pipe distribution groove is required to be formed in the front left of the top surface of the building, a first electric telescopic rod located behind a left side plate contracts to enable the value of a corresponding pressure sensor to be zero, then a first power device drives a corresponding sleeve to rotate by the angle of the corresponding arc-shaped groove, the electric roller located on the right side moves forwards by taking the electric roller located in the front left as the center of a circle, the arc-shaped pipe distribution groove can be formed, and similarly, the corresponding grooving operation on the building ground can be realized by adjusting the states of an electric sliding block and the first electric telescopic rod; in the case of slotting a building wall surface, as shown in fig. 1, the building wall surface to be slotted is positioned at the rear side of a box body, slotting equipment at the rear side of the box body is in contact fit with the building wall surface, then the slotting equipment moves up and down along a guide rail through an electric slider, a first power device drives a sleeve to rotate, so that four electric rollers respectively move towards corresponding directions, and any horizontal wiring groove or arc-shaped wiring groove can be formed in the wall body at the rear side by the slotting equipment; when the invention is used as an indoor construction platform, the invention is suitable for construction of the top surface and the wall surface of a bedroom with small area, the plan view of the using state is shown in figure 1, the electric rollers are respectively contacted and matched with the side surface of the bedroom, and the first electric telescopic rod is in an extension state, so that the side plate and the box body are in a horizontal suspension state, a constructor sits on the top surface of the box body to perform construction operation, when the top surface of the bedroom needs to be constructed, the first power device drives all the sleeves to rotate ninety degrees, the direction of the electric rollers is adjusted, all the electric rollers move upwards along the wall surface of the bedroom, the construction can be performed on the top surface of the bedroom and the high part of the wall surface, the electric slider moves forwards and backwards along the guide rail, the construction can be performed on the top surface of the bedroom in the front and back direction, the first power device drives the sleeves to rotate, so that the electric rollers move horizontally along the wall surface as shown in figure 1, thereby facilitating the constructors to carry out comprehensive construction on the wall surface and the top surface; when the lifting platform is used as an indoor construction material transportation lifting platform, the top view of the use state is shown in fig. 2, the side plates are in a vertical parallel state, the outer side of one side plate faces upwards to serve as a material placing platform, all electric rollers are in contact with the wall surface, the pressure values of all pressure sensors are larger than zero, the material to be transported is placed on the material placing platform, and the electric rollers move up and down along the wall surface to transport the material; the invention can meet different construction requirements through a simple structure so as to realize multiple functions, when the invention is used as wall and ground slotting equipment, through the matching of the electric slide block and the electric roller, the invention can meet various slotting requirements to arrange straight line grooves, arc-shaped grooves and the like, does not need manual high-position operation, improves the original manual slotting mode, effectively reduces potential safety hazards in the high-position construction process, improves the safety performance, when the invention is used as a construction platform, not only can realize the lifting function, but also can adjust the front and back positions, constructors can carry out construction operation in a building by sitting on the box body, can effectively reduce the movement of the constructors at high positions, saves the operation of manually moving the construction platform, saves time and labor and can improve the construction efficiency, and the invention can also be used as a material lifting and transporting platform, can relieve the pressure transmitted manually in the construction process, the safety risk in the manual operation is effectually avoidd, and the function is various, and convenient to use provides very big facility for building indoor construction.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is an enlarged view of the view from the direction A of FIG. 1; FIG. 3 is an enlarged view of a portion of FIG. 1I; FIG. 4 is an enlarged view of a portion of FIG. 1 II; fig. 5 is an enlarged view of a portion of fig. 2 iii.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A safety protection device for building electrical construction comprises two parallel side plates 1, wherein the upper end part and the lower end part of each side plate 1 are respectively provided with two blind holes 2 which are distributed front and back, first electric telescopic rods 3 which are coaxial with the blind holes 2 are rotatably arranged in the blind holes 2, the outer end parts of the blind holes 2 are respectively rotatably provided with a sleeve 4, the outer ends of the sleeves 4 are respectively positioned outside the corresponding blind holes 2, movable rods of the first electric telescopic rods 3 penetrate through the corresponding sleeves 4 and are positioned outside the corresponding blind holes 2, the movable rods of the first electric telescopic rods 3 are connected with the corresponding sleeves 4 through splines, the movable ends of the first electric telescopic rods 3 are respectively fixedly provided with a wheel carrier 5, a pressure sensor 24 is respectively arranged between the wheel carrier 5 and the corresponding first electric telescopic rods 3, electric rollers 6 are respectively arranged in the wheel carrier 5, and vertical guide rails 7 are respectively fixedly arranged on one opposite sides of the two side plates 1, the outside of the guide rail 7 is provided with electric sliding blocks 8 in sliding fit with the guide rail, a box body 9 is fixedly arranged between the two electric sliding blocks 8, the box body 9 is provided with a grooving device, the grooving device can perform grooving operation on the top surface, the bottom surface and the back of the box body 9 respectively, the end part of the side plate 1 is provided with a first power device for driving the sleeve 4 to rotate, and the first electric telescopic rod 3, the electric roller 6, the electric sliding blocks 8 and the grooving device are connected with a power supply respectively. The invention belongs to multifunctional construction equipment, which is suitable for interior decoration construction of house buildings; the invention is used as wall surface and top surface slotting equipment for construction, a first electric telescopic rod 3, an electric roller 6, an electric slide block 8 and a slotting device are respectively connected with a controller for slotting the wall surface and the ground of a building, as shown in figure 1, the electric roller 6 at the upper end part of a side plate 1 is respectively contacted with the top surface of the building, the electric roller 6 at the lower end part of the side plate 1 is respectively contacted with the ground of the building, two electric slide blocks 8 are moved to the uppermost end along a corresponding guide rail 7, the first electric telescopic rod 3 below the side plate 1 is extended, the first electric telescopic rod 3 above the side plate 1 is contracted, so that the slotting equipment is contacted with the top surface of the building, the pressure value of each pressure sensor 24 is the same, the electric roller 6 moves along the left and right direction to open a horizontal slot on the top surface of the building, when a fore-and aft direction pipe distribution slot is needed to be opened, the electric slide blocks 8 move downwards along the guide rail 7, then the corresponding sleeves 3 are driven by the first power device to rotate ninety degrees, so that all the electric rollers 6 rotate ninety degrees, the electric rollers 6 move along the front and back direction, and pipe distribution grooves in the front and back direction can be formed, when arc-shaped pipe distribution grooves are required to be formed in the front left of the top surface of the building, the first electric telescopic rod 3 positioned behind the left side plate 1 contracts to enable the value of the corresponding pressure sensor 24 to be zero, then the corresponding sleeves 4 are driven by the first power device to rotate by the angle of the corresponding arc-shaped grooves, the electric rollers 6 positioned on the right side all move forwards by taking the electric rollers 6 positioned in the front of the left side as the circle center, so that the arc-shaped pipe distribution grooves can be formed, and similarly, the corresponding grooving operation on the ground of the building can be realized by adjusting the states of the electric sliding blocks 8 and the first electric telescopic rods 3; in the case of slotting a building wall surface, as shown in fig. 1, the building wall surface to be slotted is positioned at the rear side of a box body 9, slotting equipment at the rear side of the box body 9 is in contact fit with the building wall surface, then moves up and down along a guide rail 7 through an electric slider 8, and a first power device drives a sleeve 4 to rotate, so that four electric rollers respectively move towards corresponding directions, and any horizontal wiring groove or arc-shaped wiring groove can be formed in the wall body at the rear side by the slotting equipment; when the invention is used as an indoor construction platform, the invention is suitable for the construction of the top surface and the wall surface of a bedroom with small area, the plan view of the using state is shown in figure 1, the electric rollers 6 are respectively contacted and matched with the side surface of the bedroom, and the first electric telescopic rod 3 is in an extending state, so that the side plates 1 and the box body 9 are in a horizontal suspended state, constructors sit on the top surface of the box body 9 to carry out construction operation, when the top surface of the bedroom needs to be constructed, the first power device drives all the sleeves 4 to rotate ninety degrees, the direction of the electric rollers 6 is adjusted, all the electric rollers 6 move upwards along the wall surface of the bedroom, the construction can be carried out on the top surface and the high part of the wall surface, the electric sliding block 8 moves forwards and backwards along the guide rail 7, the construction can be carried out on the top surface of the bedroom in the front and back direction, the sleeves 4 are driven by the first power device to rotate, so that the electric rollers 6 are shown in figure 1, the whole device can horizontally move along the wall surface, so that the wall surface and the top surface can be conveniently and comprehensively constructed by constructors; when the lifting platform is used as an indoor construction material transportation lifting platform, the plan view of the use state is shown in fig. 2, the side plates 1 are in an up-and-down parallel state, the outer side of one side plate 1 faces upwards to serve as a material placing platform, all the electric rollers 6 are in contact with the wall surface, the pressure values of all the pressure sensors 24 are larger than zero, the material to be transported is placed on the material placing platform, and the electric rollers 6 can move up and down along the wall surface to transport the material; the invention can meet different construction requirements through a simple structure so as to realize multiple functions, when the invention is used as wall and ground slotting equipment, through the matching of the electric slide block 7 and the electric roller 6, the requirements of various slotting can be met, straight line grooves, arc-shaped grooves and the like are arranged, the manual high-position operation is not needed, the original manual slotting mode is improved, the potential safety hazard in the high-position construction process is effectively reduced, the safety performance is improved, when the invention is used as a construction platform, the lifting function can be realized, the front-back position adjustment can be carried out, constructors can carry out construction operation in a building by sitting on the box body 9, the movement of the constructors at the high position can be effectively reduced, the operation of manually moving the construction platform is omitted, the time and the labor are saved, the construction efficiency can be improved, the invention can also be used as a material lifting and transporting platform, the pressure of manual transmission in the construction process can be relieved, the safety risk in the manual operation is effectually avoidd, and the function is various, and convenient to use provides very big facility for building indoor construction.

Specifically, as shown in fig. 1, the slotting device described in this embodiment includes output shafts of a first telescopic shaft motor 10, a second telescopic shaft motor 11, a third telescopic shaft motor 12, a first through hole 13, a slotting cutter 14, a shaft sleeve 15, and a plurality of second electric telescopic rods 16, the first telescopic shaft motor 10 with an upward output shaft, the second telescopic shaft motor 11 with a downward output shaft, and the third telescopic shaft motor 12 with a rearward output shaft are respectively fixedly installed in a box 9 through a bracket, the first through hole 13 is respectively formed in the middle of the top surface, the bottom surface, and the back surface of the box 9, output shafts of the first telescopic shaft motor 10, the second telescopic shaft motor 11, and the third telescopic shaft motor 12 respectively penetrate through the first through hole 13 on the corresponding side and are rotatably connected with the same, the slotting cutter 14 is respectively detachably installed at movable ends of the output shafts of the first telescopic shaft motor 10, the second telescopic shaft motor 11, and the third telescopic shaft motor 12, first telescopic shaft motor 10, second telescopic shaft motor 11, the inner installation axle sleeve 15 that rotates respectively of output shaft expansion end of third telescopic shaft motor 12, the outer side of the inner of first through-hole 13 is the second electric telescopic handle 16 at several evenly distributed's expansion end towards box 9 middle part of fixed mounting respectively, the equal fixed connection of expansion end of the second electric telescopic handle 16 that is located the inner outside of same first through-hole 13 corresponds axle sleeve 15, first telescopic shaft motor 10, second telescopic shaft motor 11, third telescopic shaft motor 12, second electric telescopic handle 16 is connected with the power respectively. When the building roof needs to be grooved, as shown in fig. 1, the box body 9 moves to the upper part of the guide rail 8 along the electric slide block 7, the first electric telescopic rod 3 positioned below the side plate 1 extends, the first electric telescopic rod 3 positioned above the side plate 1 contracts, so that the grooving cutter 14 of the first telescopic shaft motor 10 is contacted with the building roof, then the first telescopic shaft motor 10 drives the grooving cutter 14 to rotate to continue grooving, as the shaft sleeve 15 is connected with the first through hole 13 on the corresponding side through the movable end towards the second electric telescopic rod 16 in the middle of the box body 9, the second electric telescopic rod 16 corresponding to the first telescopic shaft motor 10 contracts in the grooving process, so that the telescopic shaft 10 corresponding to the first telescopic shaft motor 10 extends, so that the grooving depth of the grooving tool 14 to the wall surface is increased, and similarly, the telescopic shaft of the first telescopic shaft motor 10 can be contracted by contracting the second electric telescopic rod 16, so that the corresponding shaft sleeve 15 and the telescopic shaft of the first telescopic shaft motor 10 are driven to move along with the telescopic shaft by the expansion and contraction of the second electric telescopic rod 16, so that the grooving depth of the grooving tool 14 can be controlled, meanwhile, the grooving tool 14 is driven to move along the left and right directions in the rotating process by moving the electric roller 6, so that the wiring groove in the left and right directions can be formed, the moving direction of the electric roller 6 can be adjusted by driving the sleeve 4 to rotate by the first power device, so that the wiring groove and the arc-shaped wiring groove in the front and back directions can be formed on the top surface of the building, and similarly, the grooving operation to the floor and the wall surface of the building can be realized, the corresponding shaft sleeve 15 is driven to move by the second electric telescopic rods 16, so that the expansion and contraction condition of the corresponding output shaft sleeve 15 is controlled to adjust the grooving depth, and connect an axle sleeve 15 through several second electric telescopic handle 16 simultaneously, can make the telescopic shaft of the axle sleeve 15 and the telescopic shaft motor that correspond remove more stably to have good stability when can guaranteeing slotted cutter 14 and slot, effectual promotion fluting technology level all sets up slotted cutter 14 at the top surface of box 9, bottom surface and back simultaneously, and adopt different telescopic shaft motors to drive, can effectually ensure the operation precision, carry out the construction of pertinence fluting.

Specifically, as shown in fig. 1, this embodiment the conical feeder hopper 17 of big-end-up of top surface fixed mounting of box 9, the upper end of feeder hopper 17 is located slotting cutter 14 below, fixed mounting crushed aggregates collection device 18 in box 9, four evenly distributed's feed inlet 19 is seted up to box 9 top surface, feed inlet 19 all communicates with each other with crushed aggregates collection device 18, the communicating relief hole 20 with crushed aggregates collection device 18 is seted up to the bottom surface of box 9, crushed aggregates collection device 18 can absorb the dust and follow the concrete block, crushed aggregates collection device 18 is connected with the power. Crushed aggregates collection device 18 is connected with the controller, because the upper end of feeder hopper 17 is located fluting cutter 14 below, when the fluting cutter 14 of box 9 top surface carried out the fluting to the building top surface, crushed aggregates collection device 18 began to work, and dust and the piece of fluting in-process are collected by crushed aggregates collection device 18, then concentrate the discharge through relief hole 20 again, can effectually avoid the construction piece that produces at the fluting in-process to drop to ground, can ensure good construction environment.

Further, as shown in fig. 3, the first power device described in this embodiment includes a second motor 21, a first gear 22, and a second gear 23, two second motors 21 whose output shafts are far away from the middle portion of the side plate 1 are respectively and fixedly installed at the middle portions of the two ends of the side plate 1, the second motors 21 are in one-to-one correspondence with the sleeves 4 on the corresponding sides, the output shafts of the second motors 21 are respectively and fixedly installed with the first gears 22, the second gears 23 are respectively and fixedly installed on the peripheries of the upper portions of the sleeves 4, the second gears 23 are respectively engaged with the corresponding first gears 22, and the second motors 21 are respectively connected with the power supply. In the use process, the second motors 21 are respectively connected with the controller, and because the second gears 23 are respectively meshed with the corresponding first gears 22, the corresponding sleeves 4 can be rotated along with the rotation of the second motors 21, so that the directions of the sleeves 4 and the corresponding electric rollers 6 can be adjusted.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.