CN113502821A

CN113502821A - High slope pouring hoisting device

Info

Publication number: CN113502821A
Application number: CN202110703925.2A
Authority: CN
Inventors: 周龙杰; 李佳威; 王源泉; 张磊; 张曼曼
Original assignee: Sinohydro Bureau 12 Co Ltd
Current assignee: Sinohydro Bureau 12 Co Ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2021-10-15

Abstract

The invention provides a high slope pouring lifting device. The high slope pouring lifting device comprises a base; a lifting structure; a sliding structure; a power structure; a support structure; the structure of unloading, the structure of unloading includes cylinder, fixed block, push rod, dead lever, pivot, pin, stopper and a storage section of thick bamboo, the cylinder is fixed in bearing structure's one end, the fixed block is fixed in the cylinder deviates from bearing structure's one end, the push rod rotate connect in the fixed block, the dead lever is equipped with two, two the dead lever is symmetrical relation vertical fixation in bearing structure's top, a storage section of thick bamboo is through two the pivot is with two a storage section of thick bamboo rotates to be connected, just the push rod deviates from the one end of fixed block with a storage section of thick bamboo's bottom rotates to be connected, the top of dead lever has cup jointed the stopper. The high slope pouring lifting device provided by the invention has the advantages of convenience in discharging, time saving and labor saving.

Description

High slope pouring hoisting device

Technical Field

The invention relates to the technical field of high slope pouring, in particular to a high slope pouring lifting device.

Background

The high slope refers to a soil slope with the height of more than 20m and less than 100m or a rock slope with the height of more than 30m and less than 100 m. In the construction of high slope pours the in-process, generally adopt mechanical equipment to pour the work, but in mechanical equipment pours the course of the work, can have some circumstances of pouring not enough or pouring the back and cave in, just need the manual work to pour, when the manual work is poured, some high places in position need the ladder or promote and pour.

However, when the traditional high slope pouring lifting device is used, when pouring is lifted to a specific position, the unloading work needs to be carried out manually, and time and labor are wasted.

Therefore, there is a need to provide a new high slope pouring lifting device to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a high slope pouring lifting device which is convenient to unload and saves time and labor.

In order to solve the technical problem, the high slope pouring lifting device provided by the invention comprises: a base; the lifting structure is arranged inside the base; the sliding structure is arranged at the top end of the base; the power structure is arranged at one end of the sliding structure, which is far away from the base; a support structure fixed to one end of the sliding structure; the structure of unloading, the structure of unloading is located bearing structure's top, the structure of unloading includes cylinder, fixed block, push rod, dead lever, pivot, pin, stopper and a storage section of thick bamboo, the cylinder is fixed in bearing structure's one end, the fixed block is fixed in the cylinder deviates from bearing structure's one end, the push rod rotate connect in the fixed block, the dead lever is equipped with two, two the dead lever is symmetrical relation vertical fixation in bearing structure's top, a storage section of thick bamboo is through two the pivot is with two a storage section of thick bamboo rotates to be connected, just the push rod deviates from the one end of fixed block with a storage section of thick bamboo's bottom rotates to be connected, the top of dead lever has cup jointed the stopper, the pin runs through the dead lever with the stopper.

Preferably, the outer diameter of the storage barrel is smaller than the distance between the two fixing rods, the height of each fixing rod is equal to that of the storage barrel, the rotating shaft is located at one third of the height of the storage barrel, the limiting block is of a T-shaped structure, and one end, close to the rotating shaft, of the limiting block is of a semicircular structure.

Preferably, the sliding structure includes stand, guide rail, slider and slide, the "T" shape structure the stand is the vertical relation and is fixed in the top of base, the guide rail is equipped with two, two the guide rail is parallel relation and is fixed in the one end of stand, slider sliding connection in the guide rail deviates from the one end of stand, the rectangle the slide is fixed in the slider deviates from the one end of guide rail.

Preferably, the support structure comprises a connecting rod and a support plate, the rectangular support plate is fixed at one end of the sliding plate, which is far away from the sliding block, in a vertical relation, and the connecting rod is connected between the support plate and the sliding plate.

Preferably, the cylinder is fixed on the top end of the supporting plate, the two fixing rods are vertically fixed on the top end of the supporting plate in a parallel relationship, and the connecting rod, the sliding plate and the supporting plate form a triangular structure.

Preferably, elevation structure includes hex nut, crank, lead screw, first gear, second gear and guide pin bushing, first gear rotates to be connected the inside of base, the second gear rotates to be connected the inside of base, first gear with the meshing of second gear, just the outside diameter of first gear is greater than the outside diameter of second gear, hex nut is fixed in the one end of second gear, the crank with hex nut cup joints, the inside rotation of first gear is connected with the lead screw, the lead screw with the stand rotates to be connected, the guide pin bushing rotates to be connected the outside of lead screw, just the guide pin bushing with slide fixed connection.

Preferably, the power structure includes motor, first belt pulley, belt and second belt pulley, the motor is fixed in the one end of stand, first belt pulley with motor fixed connection, the second belt pulley is fixed the outside of lead screw, the top face of first belt pulley with the top face of second belt pulley is in same horizontal plane, first belt pulley with the second belt pulley passes through the belt rotates and connects.

Preferably, the base deviates from the one end of stand is equipped with the moving structure, the moving structure includes gyro wheel, fixed slot, rotary column, bearing and spacing post, gyro wheel sliding connection be in inside the base inside the fixed slot, rotary column threaded connection be in the inside of base, just the rotary column passes through the bearing with the gyro wheel rotates and connects, spacing post is located the outside of gyro wheel, just spacing post with base sliding connection.

Compared with the prior art, the high slope pouring lifting device provided by the invention has the following beneficial effects:

the invention provides a high slope pouring lifting device, wherein two fixing rods which are in parallel relation are fixed at the top end of a supporting plate in a vertical relation, a storage barrel is rotatably connected with the fixing rods through a rotating shaft at the top ends of the fixing rods, a limiting block with a T-shaped structure is clamped at the top ends of the fixing rods, the limiting block is detachably connected with the fixing rods through pins, the storage barrel can be conveniently detached through the arrangement of the limiting block, so that the storage barrel can be conveniently cleaned, one end of the limiting block, close to the rotating shaft, is of a semicircular structure, can just limit the rotating shaft, can prevent the storage barrel from being deviated when rotating, an air cylinder is fixed at one end, close to the fixing rods, of the supporting plate, and a concave fixing block is fixed at one end, away from the supporting plate, of the air cylinder, the one end of connecting rod is rotated and is connected the inside of fixed block, the other end of connecting rod rotate connect in the bottom of a storage section of thick bamboo, through the lift of cylinder, can be in order to realize the rotation of a storage section of thick bamboo to can realize the flourishing material and the unloading of a storage section of thick bamboo elevating system with under the sliding construction cooperation was used, can realize the oscilaltion of a storage section of thick bamboo, thereby can realize unloading of a storage section of thick bamboo different positions conveniently pours the feed supplement to the high slope, does not need artifical frame ladder to pour, can save time and manpower, and can improve pour and water the efficiency of building with the benefit.

Drawings

Fig. 1 is a schematic structural view of a high slope pouring lifting device according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of the connection structure of the base and the moving structure shown in FIG. 1;

FIG. 5 is a schematic view of the connection structure of the base and the lifting structure shown in FIG. 1;

fig. 6 is a schematic view of a connection structure of the elevation structure and the sliding structure shown in fig. 1.

Reference numbers in the figures: 1. the device comprises a base, 2, a moving structure, 21, a roller, 22, a fixing groove, 23, a rotating column, 24, a bearing, 25, a limiting column, 3, a lifting structure, 31, a hexagon nut, 32, a crank, 33, a screw rod, 34, a first gear, 35, a second gear, 36, a guide sleeve, 4, a sliding structure, 41, an upright column, 42, a guide rail, 43, a sliding block, 44, a sliding plate, 5, a power structure, 51, a motor, 52, a first belt pulley, 53, a belt, 54, a second belt pulley, 6, a supporting structure, 61, a connecting rod, 62, a supporting plate, 7, a discharging structure, 71, a cylinder, 72, a fixing block, 73, a push rod, 74, a fixing rod, 75, a rotating shaft, 76, a pin, 77, a limiting block, 78 and a storage barrel.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, wherein fig. 1 is a schematic structural diagram of a high slope pouring lifting device according to a preferred embodiment of the present invention; FIG. 2 is an enlarged view of portion A of FIG. 1; FIG. 3 is an enlarged view of the portion B shown in FIG. 1; FIG. 4 is a schematic view of the connection structure of the base and the moving structure shown in FIG. 1; FIG. 5 is a schematic view of the connection structure of the base and the lifting structure shown in FIG. 1; fig. 6 is a schematic view of a connection structure of the elevation structure and the sliding structure shown in fig. 1. High slope pouring hoisting device includes: a base 1; the lifting structure 3 is arranged in the base 1; the sliding structure 4 is arranged at the top end of the base 1; the power structure 5 is arranged at one end, away from the base 1, of the sliding structure 4; a support structure 6, wherein the support structure 6 is fixed at one end of the sliding structure 4; the discharging structure 7 is arranged at the top end of the supporting structure 6, the discharging structure 7 comprises a cylinder 71, a fixed block 72, a push rod 73, a fixed rod 74, a rotating shaft 75, a pin 76, a limit block 77 and a storage barrel 78, the cylinder 71 is fixed at one end of the supporting structure 6, the fixed block 72 is fixed at one end of the cylinder 71, which is far away from the supporting structure 6, the push rod 73 is rotatably connected to the fixing block 72, two fixing rods 74 are provided, the two fixing rods 74 are perpendicularly fixed at the top end of the supporting structure 6 in a symmetrical relationship, the object containing barrel 78 is rotatably connected with the two object containing barrels 78 through the two rotating shafts 75, and one end of the push rod 73, which is far away from the fixed block 72, is rotatably connected with the bottom end of the storage barrel 78, the top end of the fixed rod 74 is sleeved with the limiting block 77, and the pin 76 penetrates through the fixed rod 74 and the limiting block 77.

The outer diameter of the storage barrel 78 is smaller than the distance between the two fixing rods 74, the height of each fixing rod 74 is equal to that of the storage barrel 78, the rotating shaft 75 is located at one third of the height of the storage barrel 78, the limiting block 77 is of a T-shaped structure, one end, close to the rotating shaft 75, of the limiting block 77 is of a semicircular structure, the rotating shaft 75 is located at one third of the height of the storage barrel 78, the storage barrel 78 can be guaranteed to rotate on the fixing rods 74, and one end, close to the rotating shaft 75, of the limiting block 77 is of a semicircular structure, so that the rotating shaft 75 cannot be dislocated when rotating on the fixing rods 74.

The sliding structure 4 comprises a vertical column 41, two guide rails 42, a sliding block 43 and a sliding plate 44, wherein the vertical column 41 with a T-shaped structure is fixed at the top end of the base 1 in a vertical relation, the two guide rails 42 are fixed at one end of the vertical column 41 in a parallel relation, the sliding block 43 is connected to one end of the guide rail 42 departing from the vertical column 41 in a sliding way, the rectangular sliding plate 44 is fixed at one end of the sliding block 43 departing from the guide rails 42, and the sliding block 44 can be ensured to ascend and descend by matching the guide rails 42 with the sliding block 43.

The supporting structure 6 comprises a connecting rod 61 and a supporting plate 62, the rectangular supporting plate 62 is fixed at one end of the sliding plate 44, which is far away from the sliding block 43, in a vertical relation, the connecting rod 61 is connected between the supporting plate 62 and the sliding plate 44, and the supporting plate 62 and the connecting rod 61 are matched for use, so that the normal rotation of the containing barrel 78 can be ensured.

The cylinder 71 is fixed at the top end of the supporting plate 62, the two fixing rods 74 are vertically fixed at the top end of the supporting plate 62 in a parallel relationship, the connecting rod 61, the sliding plate 44 and the supporting plate 62 form a triangular structure, and the connecting rod 61, the sliding plate 44 and the supporting plate 62 form a triangular structure, so that the firmness of the supporting plate 62 can be ensured.

The lifting structure 3 comprises a hexagonal nut 31, a crank 32, a screw 33, a first gear 34, a second gear 35 and a guide sleeve 36, the first gear 34 is rotatably connected inside the base 1, the second gear 35 is rotatably connected inside the base 1, the first gear 34 is meshed with the second gear 35, the outer diameter of the first gear 34 is larger than that of the second gear 35, the hexagonal nut 31 is fixed at one end of the second gear 35, the crank 32 is sleeved with the hexagonal nut 31, the screw 33 is rotatably connected inside the first gear 34, the screw 33 is rotatably connected with the upright post 41, the guide sleeve 36 is rotatably connected outside the screw 33, the guide sleeve 36 is fixedly connected with the sliding plate 44, and the outer diameter of the first gear 34 is larger than that of the second gear 35, the principle that the pinion drives the gearwheel to save labor can be utilized, and the effect of labor saving in rotation can be achieved.

Power structure 5 includes motor 51, first belt pulley 52, belt 53 and second belt pulley 54, motor 51 is fixed in the one end of stand 41, first belt pulley 52 with motor 51 fixed connection, second belt pulley 54 is fixed the outside of lead screw 33, first belt pulley 52 the top terminal surface with second belt pulley 54's top terminal surface is in same horizontal plane, first belt pulley 52 with second belt pulley 54 passes through belt 53 rotates to be connected, through first belt pulley 52 drives second belt pulley 54's rotation can be realized motor 51 drives lead screw 33 rotates, conveniently is suitable for different operational environment.

One end of the base 1 departing from the upright column 41 is provided with a moving structure 2, the moving structure 2 comprises a roller 21, a fixed groove 22, a rotating column 23, a bearing 24 and a limiting column 25, the roller 21 is slidably connected inside the fixing groove 22 inside the base 1, the rotary column 23 is screwed inside the base 1, the rotating column 23 is rotatably connected with the roller 21 through the bearing 24, the limiting column 25 is arranged outside the roller 21, the limiting column 25 is connected with the base 1 in a sliding way, the arrangement of the limiting post 25 can ensure that the roller 21 can ascend and descend vertically without rotating, when the rotating post 23 is rotated, the up-and-down lifting of the roller 21 can be realized, thereby realizing the contact condition of the roller 21 and the ground, and then can realize the work and the accomodating of gyro wheel 21, make things convenient for the fixed and transportation of device.

10 sets of the high slope pouring lifting devices are manufactured respectively, then the high slope pouring lifting devices provided by the invention and the common 10 sets of high slope pouring lifting devices with the same specification are used for carrying out the same lifting pouring work in a pouring construction area respectively, and the pouring efficiency of the high slope pouring lifting devices provided by the invention is 5% higher than that of the common high slope pouring lifting devices through multiple periodical data comparison.

The working principle of the high slope pouring lifting device provided by the invention is as follows:

when the device is used, firstly, the rotating column 23 is rotated, the rotating column 23 is in threaded connection with the base 1, the bottom end of the rotating column 23 is rotatably connected with the roller 21, the roller 21 is in sliding connection with the base 1, the limiting column 25 is fixed outside the roller 21, the roller 21 can be ensured to ascend and descend through the arrangement of the limiting column 25 without rotating, when the rotating column 23 is rotated, the roller 21 can ascend and descend, so that the contact condition of the roller 21 and the ground can be realized, the work and the storage of the roller 21 can be further realized, the device is convenient to fix and transport, then, the inner part of the containing barrel 78 is filled with casting, when the inner part of the containing barrel 78 is filled with casting, the crank 32 is rotated, the crank 32 is fixedly connected with the second gear 35, the first gear 34 is meshed with the second gear 35, the screw 33 is fixed in the first gear 34, that is, the rotation of the screw 33 can be realized by rotating the crank 32, the outer diameter of the first gear 34 is larger than that of the second gear 35, and the rotation of the screw 33 can be realized by driving the first belt pulley 52 and the second belt pulley 54 to rotate by the principle that the gear wheel is driven by the pinion to save labor, the rotation of the screw 33 can also be realized by driving the first belt pulley 52 and the second belt pulley 54 to rotate by the motor 51, different working environments can be adapted by the replacement of the crank 32 and the motor 51, the guide sleeve 36 is rotatably connected to the outer part of the screw 33, the guide sleeve 36 is fixedly connected to the sliding plate 44, the sliding plate 44 is slidably connected to the upright post 41 by the guide rail 42 and the slider 43, that is, the up-down lifting of the support plate 62 can be realized by the rotation of the screw 33, the top end of the supporting plate 62 is vertically fixed with two fixing rods 74 in parallel, the top end of each fixing rod 74 is connected with the corresponding fixing rod 74 through the corresponding rotating shaft 75 in a rotating manner, the top end of each fixing rod 74 is connected with the corresponding limiting block 77 in a T-shaped structure in a clamping manner, the limiting blocks 77 are detachably connected with the corresponding fixing rods 74 through the corresponding pins 76, the limiting blocks 77 are arranged to facilitate the detachment of the corresponding containing cylinders 78 and further facilitate the cleaning of the corresponding containing cylinders 78, one ends, close to the rotating shafts 75, of the limiting blocks 77 are of semicircular structures, the rotating shafts 75 can be just limited, the deviation can be prevented when the corresponding containing cylinders 78 rotate, the air cylinders 71 are fixed at one ends, close to the corresponding fixing rods 74, of the supporting plate 62, and the concave fixing blocks 72 are fixed at one ends, away from the supporting plate 62, the one end of connecting rod 61 is rotated and is connected the inside of fixed block 72, the other end of connecting rod 61 rotate connect in the bottom of a storage section of thick bamboo 78, through the lift of cylinder 71, can be with the realization the rotation of a storage section of thick bamboo 78, thereby can realize the flourishing material and the unloading of a storage section of thick bamboo 78 elevating structure 3 with under the sliding construction 4 cooperation was used, can realize the oscilaltion of a storage section of thick bamboo 78, thereby can realize unloading of a storage section of thick bamboo 78 different positions conveniently pours the feed supplement to the high slope, does not need artifical frame ladder to pour, can save time and manpower, and can improve pour and fill the efficiency with the benefit.

the invention provides a high slope pouring lifting device, wherein two fixing rods 74 in parallel relation are fixed at the top end of a supporting plate 62 in a vertical relation, a storage barrel 78 at the top end of each fixing rod 74 is rotatably connected with the corresponding fixing rod 74 through a rotating shaft 75, a limiting block 77 in a T-shaped structure is clamped at the top end of each fixing rod 74, the limiting block 77 is detachably connected with the corresponding fixing rod 74 through a pin 76, the storage barrel 78 can be conveniently detached through the arrangement of the limiting block 77, so that the storage barrel 78 can be conveniently cleaned, one end, close to the rotating shaft 75, of the limiting block 77 is in a semicircular structure, the rotating shaft 75 can be just limited, the storage barrel 78 can be prevented from being deviated when rotating, an air cylinder 71 is fixed at one end, close to the corresponding fixing rod 74, of the supporting plate 62, the cylinder 71 deviates from the fixed block 72 of the fixed "concave" shape of one end of backup pad 62, the one end of connecting rod 61 is rotated and is connected the inside of fixed block 72, the other end of connecting rod 61 rotate connect in the bottom of a storage section of thick bamboo 78, through the lift of cylinder 71, can be in order to realize the rotation of a storage section of thick bamboo 78, thereby can realize the material of containing of a storage section of thick bamboo 78 is expected and is unloaded the elevation structure 3 with under the cooperation of sliding structure 4 is used, can realize the oscilaltion of a storage section of thick bamboo 78, thereby can realize unloading of a storage section of thick bamboo 78 different positions, conveniently pour the feed supplement to the high slope, do not need artifical frame ladder to pour, can save time and manpower, and can improve and pour with the benefit and water efficiency.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a high slope pouring hoisting device which characterized in that includes:

a base;

the lifting structure is arranged inside the base;

the sliding structure is arranged at the top end of the base;

the power structure is arranged at one end of the sliding structure, which is far away from the base;

a support structure fixed to one end of the sliding structure; the structure of unloading, the structure of unloading is located bearing structure's top, the structure of unloading includes cylinder, fixed block, push rod, dead lever, pivot, pin, stopper and a storage section of thick bamboo, the cylinder is fixed in bearing structure's one end, the fixed block is fixed in the cylinder deviates from bearing structure's one end, the push rod rotate connect in the fixed block, the dead lever is equipped with two, two the dead lever is symmetrical relation vertical fixation in bearing structure's top, a storage section of thick bamboo is through two the pivot is with two a storage section of thick bamboo rotates to be connected, just the push rod deviates from the one end of fixed block with a storage section of thick bamboo's bottom rotates to be connected, the top of dead lever has cup jointed the stopper, the pin runs through the dead lever with the stopper.

2. The high slope pouring lifting device according to claim 1, wherein the outer diameter of the container is smaller than the distance between two of the fixing rods, the height of the fixing rods is the same as the height of the container, the rotating shaft is located at one third of the height of the container, the limiting block is of a "T" shape, and one end of the limiting block near the rotating shaft is of a semicircular structure.

3. The high slope pouring lifting device according to claim 1, wherein the sliding structure comprises a vertical column, two guide rails, two slide blocks and a sliding plate, the vertical column of the T-shaped structure is fixed on the top end of the base in a perpendicular relationship, the two guide rails are fixed on one end of the vertical column in a parallel relationship, the slide block is slidably connected on one end of the guide rail, which is far away from the vertical column, and the rectangular sliding plate is fixed on one end of the slide block, which is far away from the guide rail.

4. A high slope pouring lifting device according to claim 3 wherein said support structure includes a connecting rod and a support plate, said rectangular support plate being secured in perpendicular relation to an end of said slide plate remote from said slide block, said connecting rod being connected between said support plate and said slide plate.

5. The high slope pouring lifting device according to claim 4, wherein said cylinder is fixed to the top end of said supporting plate, two of said fixing rods are vertically fixed to the top end of said supporting plate in parallel relationship, and said connecting rod, said sliding plate and said supporting plate form a triangular structure.

6. The high slope pouring lifting device according to claim 3, wherein the lifting structure comprises a hexagon nut, a crank, a lead screw, a first gear, a second gear and a guide sleeve, the first gear is rotatably connected inside the base, the second gear is rotatably connected inside the base, the first gear is meshed with the second gear, the outer diameter of the first gear is larger than that of the second gear, the hexagon nut is fixed at one end of the second gear, the crank is sleeved with the hexagon nut, the lead screw is rotatably connected inside the first gear, the lead screw is rotatably connected with the upright post, the guide sleeve is rotatably connected outside the lead screw, and the guide sleeve is fixedly connected with the sliding plate.

7. The high slope pouring lifting device according to claim 6, wherein the power structure includes a motor, a first belt pulley, a belt and a second belt pulley, the motor is fixed at one end of the upright, the first belt pulley is fixedly connected with the motor, the second belt pulley is fixed outside the screw rod, the top end surface of the first belt pulley and the top end surface of the second belt pulley are in the same horizontal plane, and the first belt pulley and the second belt pulley are rotatably connected through the belt.

8. The high slope pouring lifting device according to claim 3, wherein a moving structure is provided at an end of the base opposite to the upright, the moving structure includes a roller, a fixing groove, a rotating column, a bearing and a limiting column, the roller is slidably connected inside the fixing groove inside the base, the rotating column is screwed inside the base, the rotating column is rotatably connected with the roller through the bearing, the limiting column is provided outside the roller, and the limiting column is slidably connected with the base.