CN112279127A - Stable device convenient to high-rise cement transportation - Google Patents

Abstract

The invention discloses a stable device convenient for high-rise cement transportation, which comprises a transportation box and a transportation cavity arranged in the transportation box, wherein rotary rolling shafts are rotatably arranged on the front wall and the rear wall of the transportation cavity, rolling cylinders are fixedly arranged on the rotary rolling shafts, guide weights are symmetrically and fixedly arranged in front and at the back of the lower parts of the rolling cylinders, and lower annular racks are fixedly arranged on the outer surfaces of the rolling cylinders. Meanwhile, the invention realizes the automation of the treatment process, greatly improves the treatment efficiency and saves the labor force.

Description

Stable device convenient to high-rise cement transportation

Technical Field

The invention relates to a stable device convenient for high-rise cement transportation, and mainly relates to the technical field of building feeding.

Background

When houses are built by people in rural areas, cement needs to be transported into a building for construction, the cement bucket is hung on the roof manually or lifted manually at the present stage, the first method is characterized in that the cement bucket is pulled by only one pull rope when used, the bucket can shake randomly during the hanging process, the cement is prone to spilling, the pull rope is prone to breaking after the friction time is long, the cement bucket is prone to directly smashing on the ground, accidents are prone to occurring, the transportation speed is low when the cement bucket is lifted upwards for transportation, the cement transportation is prone to generating condensation after arrival, the subsequent construction quality is affected, and the building construction method is improved aiming at the defects.

Disclosure of Invention

The invention aims to solve the technical problem of providing a stable device convenient for high-rise cement transportation, and overcoming the problems.

The invention is realized by the following technical scheme.

The invention relates to a stable device convenient for high-rise cement transportation, which comprises a transportation box and a transportation cavity arranged in the transportation box, wherein the front wall and the rear wall of the transportation cavity are rotatably provided with a rotating rolling shaft, the rotating rolling shaft is fixedly provided with a rolling barrel, guide weights are symmetrically and fixedly arranged in front and at back below the rolling barrel, the outer surface of the rolling barrel is fixedly provided with a lower annular rack, the right side of the rolling barrel is rotatably provided with a driven hinge, the driven hinge is fixedly provided with a rolling barrel cover, the rolling barrel cover can rotate along the driven hinge, the outer surface of the rolling barrel cover is fixedly provided with an upper annular rack, the right wall of the transportation cavity is rotatably provided with a rotating hinge, a transportation box cover is fixedly arranged above the rotating hinge, the transportation box cover can rotate along the rotating hinge, the rear wall of the transportation cavity is provided with a moving groove, and a movable moving plate is arranged in the moving groove, the movable groove is elastically connected with the movable plate through a compression spring, a movement rotating shaft is rotatably arranged in front of the movable plate, the rotation hinge is in transmission connection with the movement rotating shaft through a tensioning belt pulley, a movement gear is fixedly arranged on the movement rotating shaft, a linkage rotating shaft is rotatably arranged behind the driven hinge and rotates together with the driven hinge, a linkage gear is fixedly arranged on the linkage rotating shaft, a meshing rotating shaft is rotatably arranged on the front wall and the rear wall of the transportation cavity, a meshing gear is fixedly arranged on the meshing rotating shaft and can be meshed with the lower annular rack and the upper annular rack, a shaft supporting plate is fixedly arranged on the left wall of the transportation box, a friction rotating shaft is rotatably arranged on the shaft supporting plate and is in transmission connection with the meshing rotating shaft through a transmission belt, and a friction tire is fixedly arranged on the friction rotating shaft, the safe ejection box is characterized in that an extrusion spring is elastically arranged on the shaft supporting plate, the other end of the extrusion spring is fixedly connected with the tire supporting plate, a driven tire is arranged on the tire supporting plate, safe ejection boxes which are symmetrical front and back are fixedly arranged above the transport box cover, part cavities are respectively arranged in the safe ejection boxes, buffer motors are respectively fixedly arranged in the part cavities, buffer shafts are respectively rotatably arranged on the buffer motors, buffer winding wheels are respectively fixedly arranged on the buffer shafts, buffer pull wires are respectively wound on the buffer winding wheels, the other ends of the buffer pull wires are respectively and fixedly connected with ejection fixing heads, ejection devices are respectively and fixedly arranged on the top walls of the part cavities, the ejection devices are respectively matched and connected with the ejection fixing heads, the right sides of the safe ejection boxes are respectively and fixedly provided with a through hole, the ejection fixing heads can be ejected outwards along the through holes, and motor fixing blocks are arranged, the fixed hook that bears that is equipped with of motor fixed block right-hand member, the fixed driving motor that is equipped with in motor fixed block top, driving motor goes up to rotate and is equipped with the drive shaft, the fixed drive reel that is equipped with in the drive shaft, the winding is connected with wire rope on the drive reel, the fixed telescopic link that is equipped with in motor fixed block left end, the fixed support that is equipped with on the telescopic link, it is equipped with the pulley to rotate on the support, wire rope by pass through on the drive reel the pulley surface is connected downwards, the fixed damping spring that even has in wire rope below, the damping spring other end and fixed pull ring fixed connection, fixed pull ring is fixed transport case covers, the fixed handle that is symmetrical around being equipped with in transport case front and.

Furthermore, the fixed extrusion piece that is equipped with in transportation case lid below, work as the transportation case lid is followed when the rotation hinge rotates, the motion board elasticity rises to make motion gear with the linkage gear meshing, simultaneously the rotation hinge drives tensioning pulley transmission the motion pivot motion gear rotation makes the linkage gear drives the motion of driven hinge makes the rolling cover rotates right and opens, when the transportation case lid covers the transportation case, driven hinge is driven earlier and is made the rolling cover closes, the extrusion piece is driven the extrusion the motion board downstream, makes motion gear with the linkage gear breaks away from the meshing.

Further, the telescopic link drives the support, pulley motion can control the angle between wire rope and wall, makes the transport case can be pulled and make friction tire driven tire and wall laminating make this device can be on the wall steady roll.

Furthermore, a speed sensor is fixedly arranged at the left end of the safe ejection box, when the device breaks down, the transport box and the whole body on the transport box fall downwards, the ejection device can be started to eject the ejection fixing head into a wall body after the speed sensor detects that the speed is too high, the buffering motor starts to rotate reversely to drive the buffering winding wheel to rotate, and the buffering winding wheel is stopped to buffer and decelerate the device through the buffering pull wire, so that the damage caused by falling is prevented.

The invention has the beneficial effects that: the cement box can transport a large amount of cement, is attached to a wall during transportation, has high transportation speed and high stability, can continuously roll and stir the cement during transportation, prevents cement coagulation caused by long cement transportation time, and has high construction quality.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged structural diagram of B in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The device for stably facilitating high-rise cement transportation described in conjunction with fig. 1-3 comprises a transportation box 10 and a transportation cavity 11 arranged in the transportation box 10, wherein a rotary rolling shaft 53 is rotatably arranged on the front and rear walls of the transportation cavity 11, a rolling barrel 14 is fixedly arranged on the rotary rolling shaft 53, guide weights 18 are symmetrically and fixedly arranged on the front and rear sides below the rolling barrel 14, a lower annular rack 12 is fixedly arranged on the outer surface of the rolling barrel 14, a driven hinge 17 is rotatably arranged on the right side of the rolling barrel 14, a rolling barrel cover 16 is fixedly arranged on the driven hinge 17, the rolling barrel cover 16 can rotate along the driven hinge 17, an upper annular rack 15 is fixedly arranged on the outer surface of the rolling barrel cover 16, a rotary hinge 28 is rotatably arranged on the right wall of the transportation cavity 11, a transportation box cover 13 is fixedly arranged above the rotary hinge 28, and the transportation box cover 13 can rotate along the rotary hinge 28, the rear wall of the transportation cavity 11 is provided with a moving groove 31, a movable moving plate 58 is arranged in the moving groove 31, the moving plate 58 is elastically connected with the moving groove 31 through a compression spring 62, a moving rotating shaft 59 is rotatably arranged in front of the moving plate 58, the rotating hinge 28 is in transmission connection with the moving rotating shaft 59 through a tensioning belt pulley 29, a moving gear 60 is fixedly arranged on the moving rotating shaft 59, a linkage rotating shaft 57 is rotatably arranged behind the driven hinge 17, the linkage rotating shaft 57 and the driven hinge 17 rotate together, a linkage gear 56 is fixedly arranged on the linkage rotating shaft 57, a meshing rotating shaft 22 is rotatably arranged on the front and rear walls of the transportation cavity 11, a meshing gear 19 is fixedly arranged on the meshing rotating shaft 22, the meshing gear 19 can be meshed with the lower annular rack 12 and the upper annular rack 15, a shaft supporting plate 20 is fixedly arranged on the left wall of the transportation box 10, the safe ejection box is characterized in that a friction rotating shaft 21 is rotatably arranged on the shaft supporting plate 20, the friction rotating shaft 21 is in transmission connection with the meshing rotating shaft 22 through a transmission belt 24, a friction tire 23 is fixedly arranged on the friction rotating shaft 21, an extrusion spring 25 is elastically arranged on the shaft supporting plate 20, the other end of the extrusion spring 25 is fixedly connected with a tire supporting plate 26, a driven tire 27 is arranged on the tire supporting plate 26, safe ejection boxes 32 which are symmetrical front and back are fixedly arranged above the transportation box cover 13, part cavities 63 are respectively arranged in the safe ejection boxes 32, buffer motors 36 are respectively fixedly arranged in the part cavities 63, buffer shafts 38 are respectively rotatably arranged on the buffer motors 36, buffer winding wheels 39 are respectively fixedly arranged on the buffer winding shafts 38, buffer pull wires 37 are respectively wound on the buffer winding wheels 39, and the other ends of the buffer pull wires 37 are respectively fixedly connected with ejection fixing heads 34, the ejection device 35 is fixedly arranged on the top wall of the part cavity 63, the ejection device 35 is connected with the ejection fixing head 34 in a matching manner, the right side of the safety ejection box 32 is fixedly provided with a through hole 33, the ejection fixing head 34 can be ejected outwards along the through hole 33, a motor fixing block 46 is arranged above the safety ejection box 32, a bearing fixing hook 51 is fixedly arranged at the right end of the motor fixing block 46, a driving motor 48 is fixedly arranged above the motor fixing block 46, a driving shaft 49 is rotatably arranged on the driving motor 48, a driving winding wheel 50 is fixedly arranged on the driving shaft 49, a steel wire rope 43 is wound and connected on the driving winding wheel 50, a telescopic rod 47 is fixedly arranged at the left end of the motor fixing block 46, a support 44 is fixedly arranged on the telescopic rod 47, a pulley 45 is rotatably arranged on the support 44, and the steel wire rope 43 is connected with the driving winding wheel 50 through the pulley 45, a damping spring 42 is fixedly connected below the steel wire rope 43, the other end of the damping spring 42 is fixedly connected with a fixed pull ring 41, the fixed pull ring 41 is fixed on the transport case cover 13, and front and rear symmetrical handles 52 are fixedly arranged at the front and rear ends of the transport case 10.

Advantageously, a pressing block 30 is fixedly arranged below the transport case cover 13, when the transport case cover 13 rotates along the rotating hinge 28, the moving plate 58 is elastically lifted to enable the moving gear 60 to be meshed with the linkage gear 56, meanwhile, the rotating hinge 28 drives the tensioning pulley 29 to drive the moving rotating shaft 59 and the moving gear 60 to rotate, so that the linkage gear 56 drives the driven hinge 17 to move to enable the rolling cylinder cover 16 to rotate to the right for opening, when the transport case cover 13 covers the transport case 10, the driven hinge 17 is driven to enable the rolling cylinder cover 16 to be closed, the pressing block 30 is driven to press the moving plate 58 to move downwards, and the moving gear 60 is disengaged from the linkage gear 56.

Advantageously, the telescopic rod 47 drives the bracket 44 and the pulley 45 to move, so as to control the angle between the steel cable 43 and the wall, so that the transport case 10 can be pulled to make the friction tire 23 and the driven tire 27 fit with the wall, and the device can roll on the wall surface smoothly.

Beneficially, a speed sensor 40 is fixed at the left end of the safety ejection box 32, when the device fails, the transport box 10 and the whole body thereon fall downwards, the ejection device 35 can be started to eject the ejection fixing head 34 into the wall body after the speed sensor 40 detects that the speed is too high, the buffer motor 36 is started to rotate reversely to drive the buffer winding wheel 39 to rotate, and the device is buffered and decelerated by stopping the buffer wire 37, so that the damage caused by falling is prevented.

Sequence of mechanical actions of the whole device: after the device is placed on the roof, the device is fixed and the transport case 10 and the whole transport case are not deviated when being pulled upwards through the connection of the bearing fixed hook 51 and the fixed rope, the telescopic rod 47 is started to extend to transport the transport case 10 to the outside of the floor, the driving motor 48 is started to drive the driving shaft 49 and the winding wheel 50 to reversely extend the steel wire rope 43 to transport the transport case 10 and the whole transport case to the ground, a user rotates the transport case cover 13 along the rotary hinge 28 to expand the inside of the transport cavity 11, the transport case cover 13 drives the extrusion block 30 to move upwards so that the moving plate 58 is not extruded by the extrusion block 30, the moving plate 58 moves upwards along the moving groove 31 under the elastic action of the compression spring 62 so that the moving gear 60 is meshed with the linkage gear 56, and simultaneously the rotary hinge 28 drives the moving rotating shaft 59 to rotate through the tensioning belt pulley 29 so that the moving gear 60 is meshed with the linkage gear 56 to drive the, the linkage gear 56 drives the linkage rotating shaft 57 and the driven hinge 17 to rotate together, so that the rolling cylinder cover 16 rotates along the driven hinge 17 to open along with the movement of the transport case cover 13, a user can pour cement into the rolling cylinder 14 for storage, the transport case cover 13 rotates along the driven hinge 28 to the original position after being filled, the rotating hinge 28 drives the movement rotating shaft 59 to rotate through the tensioning belt pulley 29, the movement rotating shaft 59 drives the movement gear 60 to rotate, the movement gear 60 drives the engaged linkage gear 56 to rotate, so that the linkage rotating shaft 57 and the driven hinge 17 drive the rolling cylinder cover 16 to rotate to the original position, the extrusion block 30 is driven by the transport case cover 13 to move downwards to extrude the movement plate 58, the movement plate 58 extrudes the compression spring 62 to move downwards, the movement gear 60 is disengaged from the linkage gear 56, the expansion link 47 starts to drive the bracket 44 and the pulley 45 to retract, so that an angle is formed between the steel wire rope 43 and, at this time, the friction tyre 23 and the driven tyre 27 are both attached to the wall, the driving motor 48 is started to drive the driving shaft 49 and the driving winding wheel 50 to rotate to lift the transport box cover 13, so that the transport box 10 is lifted upwards, due to the elastic action of the extrusion spring 25, the friction tyre 23 rotates together with the wall when the transport box 10 is lifted, the driven tyre 27 rotates to drive the transport box 10 upwards, the friction tyre 23 rotates to drive the friction rotating shaft 21 to rotate, the friction rotating shaft 21 drives the meshing rotating shaft 22 to rotate through the driving belt 24, the meshing rotating shaft 22 drives the meshing gear 19 to rotate, the meshing gear 19 drives the lower annular rack 12 and the upper annular rack 15 to rotate in a meshing manner, so that the rolling cylinder 14 and the rolling cylinder cover 16 rotate continuously to stir the internal cement, the cement is prevented from solidifying, the damping spring 42 can damp the shock when the wall surface is moved to the unevenness, a user can rotate the transport box 10 to a proper angle through the handle, because the effect of direction pouring weight 18 makes rolling cylinder 14 always be located the bottom and rolling cover 16 is located the top, open transport case lid 13 again and use cement, when the accident happens, speed sensor 40 detects the back that the speed is too fast, jetter 35 starts simultaneously and launches out to launch fixed head 34 and get into the wall through the downthehole 33 and fix, buffer motor 36 starts and drives buffer shaft 38, the reversal buffering system of buffer take-up pulley 39 is stopped, make this device block on the wall and can not fall, prevent the damage to the user.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a stable device that is convenient for high-rise cement transportation, includes transport case and sets up the transportation chamber in the transport case which characterized in that: the transportation device is characterized in that a rotary rolling shaft is rotatably arranged on the front wall and the rear wall of the transportation cavity, a rolling barrel is fixedly arranged on the rotary rolling shaft, guide weights are symmetrically and fixedly arranged on the front side and the rear side below the rolling barrel, a lower annular rack is fixedly arranged on the outer surface of the rolling barrel, a driven hinge is rotatably arranged on the right side of the rolling barrel, a rolling barrel cover is fixedly arranged on the driven hinge and can rotate along the driven hinge, an upper annular rack is fixedly arranged on the outer surface of the rolling barrel cover, a rotary hinge is rotatably arranged on the right wall of the transportation cavity, a transportation box cover is fixedly arranged above the rotary hinge and can rotate along the rotary hinge, a moving groove is arranged on the rear wall of the transportation cavity, a movable moving plate is arranged in the moving groove and is elastically connected with the moving groove through a compression spring, and a moving rotating shaft is rotatably arranged in front of the moving plate, the rotary hinge is in transmission connection with the moving rotating shaft through a tensioning belt pulley, the moving rotating shaft is fixedly provided with a moving gear, a linkage rotating shaft is arranged behind the driven hinge in a rotating manner and rotates together with the driven hinge, the linkage rotating shaft is fixedly provided with a linkage gear, the front wall and the rear wall of the transportation cavity are rotatably provided with a meshing rotating shaft, the meshing rotating shaft is fixedly provided with a meshing gear, the meshing gear can be meshed with the lower annular rack and the upper annular rack, the left wall of the transportation box is fixedly provided with a shaft supporting plate, the shaft supporting plate is rotatably provided with a friction rotating shaft, the friction rotating shaft is in transmission connection with the meshing rotating shaft through a transmission belt, the friction rotating shaft is fixedly provided with a friction tire, the shaft supporting plate is elastically provided with an extrusion spring, and the other end of the extrusion spring is fixedly connected with a tire supporting plate, the tire supporting plate is provided with a driven tire, the upper part of the transportation box cover is fixedly provided with safety ejection boxes which are symmetrical front and back, the safety ejection boxes are internally provided with part cavities, the part cavities are internally and fixedly provided with buffer motors, the buffer motors are all rotatably provided with buffer shafts, the buffer shafts are all fixedly provided with buffer wire winding wheels, the buffer wire winding wheels are all wound with buffer pull wires, the other ends of the buffer pull wires are all fixedly connected with ejection fixing heads, the top walls of the part cavities are all fixedly provided with ejection devices, the ejection devices are all matched and connected with the ejection fixing heads, the right side of the safety ejection box is fixedly provided with a through hole, the ejection fixing heads can be ejected outwards along the through hole, a motor fixing block is arranged above the safety ejection boxes, the right end of the motor fixing block is fixedly provided with a bearing fixing hook, and a driving motor is fixedly arranged above the motor, the last rotation of driving motor is equipped with the drive shaft, the fixed drive reel that is equipped with in the drive shaft, the winding is connected with wire rope on the drive reel, the fixed telescopic link that is equipped with in motor fixed block left end, the fixed support that is equipped with on the telescopic link, it is equipped with the pulley to rotate on the support, wire rope by pass through on the drive reel the pulley surface is connected downwards, the fixed damping spring that even has in wire rope below, the damping spring other end and fixed pull ring fixed connection, fixed pull ring is fixed on the transport case lid, the fixed handle of symmetry around being equipped with of transport case front and back end.

2. A stable means for facilitating high-rise cement transportation according to claim 1, wherein: the transport case lid below is fixed to be equipped with the extrusion piece, works as the transport case lid is followed when the rotation hinge rotates, the motion board elasticity rises to make the motion gear with the linkage gear meshing, simultaneously the rotation hinge drives the tensioning pulley transmission the motion pivot motion gear the motion gear rotates, makes the linkage gear drive the motion of driven hinge makes the rolling cover rotates right and opens, when the transport case lid covers the transport case, the driven hinge is driven earlier and is made the rolling cover closes, the extrusion piece is driven the extrusion the motion board downstream, makes the motion gear with the linkage gear breaks away from the meshing.

3. A stable means for facilitating high-rise cement transportation according to claim 1, wherein: the telescopic link drives the support the pulley motion can control the angle between wire rope and wall, makes the transport case can be pulled and make friction tire driven tire and wall laminating make this device can be on the wall steady roll.

4. A stable means for facilitating high-rise cement transportation according to claim 1, wherein: the safe ejection box left end is fixed with speedtransmitter, when this device broke down the transport case and the whole on it falls downwards, speedtransmitter detects behind the speed too fast the ejection device can start with it launches to the wall body in to launch the fixed head, the buffering motor starts the reversal drive the buffering take-up pulley rotates through the interception the buffering is acted as go-between and is carried out the buffering speed reduction with this device, prevents to fall the injury that causes.

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