CN215247498U - Movable distributing device for hydro-junction - Google Patents

Abstract

The utility model discloses a portable distributing device for water conservancy pivot, including running gear, truss-like pylon, the one-level belt feeder, the second grade belt feeder, fixed belt feeder, the tripper, slowly fall the pay-off section of thick bamboo, it has the tripper to slide on the fixed belt feeder, be fixed with the baffle box on the blanking mouth of the tripper on the fixed belt feeder, the baffle box export is connected with the feed end of one-level belt feeder, the blanking end of one-level belt feeder is connected with the feed end of second grade belt feeder, sliding connection has the tripper on the second grade belt feeder, fixedly connected with W shape divides the hopper on the blanking mouth of the tripper on the second grade belt feeder, two exports that the hopper was divided to W shape are connected with slowly fall pay-off section of thick bamboo top respectively, the advantage: the belt is used for continuous conveying, so that the conveying difficulty is reduced, and the conveying cost is reduced; the crawler-type travelling mechanism and the slewing gear of the existing just-producing excavator are utilized, the cost is reduced, the blanking area can be increased by rotating, the excavator can move to any construction destination, and the time for dismounting is saved.

Description

Movable distributing device for hydro-junction

The technical field is as follows:

the utility model relates to a hydraulic and hydroelectric engineering technical field, concretely relates to portable distributing device is used to hydraulic junction.

Background art:

at present, professional equipment and construction modes for large-volume concrete pouring of low dams, overflow weirs and flood discharge gates of hydraulic and hydroelectric engineering mainly comprise the following two types: the first is to unload the concrete into the suspension tank of the tower crane near the surface of the storage bin by a mixing and transporting vehicle, and then the suspension tank is lifted by the tower crane to transport the concrete to the surface of the casting storage bin; the second method is that the mixing truck feeds the concrete delivery pump, and the delivery pump delivers the concrete to the casting storehouse surface. In the first method, the cost of purchasing the tower crane is about 500 ten thousand in addition to the cost of constructing the track and the foundation of the tower crane, so that the cost is high, the control range of the tower crane is smaller, the pouring area is limited, and the mounting and dismounting time is longer; the second method only adopts two-stage large-slump concrete due to the need of matching pumping, so that the temperature control anti-cracking technical measures of the concrete are very high and the construction speed is slow under the conditions of large cement consumption and high hydration heat.

The utility model has the following contents:

an object of the utility model is to provide a portable distributing device is used to water conservancy pivot.

The utility model discloses by following technical scheme implement:

the movable distributing device for the hydro junction comprises a travelling mechanism, a truss type tower column, a primary belt conveyor, a secondary belt conveyor, a fixed belt conveyor, an unloading trolley and a slow-falling feeding cylinder, wherein the fixed belt conveyor is connected with the unloading trolley in a sliding manner, a blanking port of the unloading trolley on the fixed belt conveyor is fixedly connected with a guide chute, an outlet of the guide chute is connected with a feeding end of the primary belt conveyor, a blanking end of the primary belt conveyor is connected with a feeding end of the secondary belt conveyor, the secondary belt conveyor is connected with the unloading trolley in a sliding manner, a blanking port of the unloading trolley on the secondary belt conveyor is fixedly connected with a W-shaped distributing hopper, and two outlets of the W-shaped distributing hopper are respectively connected with the top end of the slow-falling feeding cylinder;

the top of the walking mechanism is rotationally connected with the bottom end of the truss type tower column;

the feeding end of the primary belt conveyor is fixed with the top end of the truss-type tower column through a steel wire rope, and the blanking end of the primary belt conveyor is fixed with one side of the truss-type tower column;

the feed end of the second-level belt conveyor is rotatably connected with the other side of the truss type tower column, and the second-level belt conveyor is fixedly connected with the top end of the truss type tower column through a steel wire rope cable-stayed device.

Preferably, the travelling mechanism comprises a crawler-type travelling mechanism and a slewing device of the just-producing excavator, and the bottom end of the truss-type tower column is fixed with the slewing device of the just-producing excavator.

Preferably, the unloading trolley comprises a frame and a fixed winch, the frame comprises a chassis, the bottom of the chassis is rotatably connected with walking wheels, an oblique beam which is obliquely arranged upwards is fixed at the top of the chassis, an oblique strut is fixed between the highest position of the oblique beam and the chassis, the highest position of the oblique beam is rotatably connected with a first guide wheel, and a second guide wheel is rotatably connected to the oblique strut;

the frame of the discharge trolley of the fixed belt conveyor is arranged between the belt of the fixed belt conveyor and the frame, the belt of the fixed belt conveyor is wound with the first guide wheel and the second guide wheel which correspond to the discharge trolley, the top of the frame of the fixed belt conveyor is in rolling contact with the traveling wheels which correspond to the discharge trolley, the steel wire rope of the fixed winch of the discharge trolley of the fixed belt conveyor is wound with the guide wheel which is rotatably arranged on the fixed belt conveyor, and the steel wire rope of the fixed winch of the discharge trolley of the fixed belt conveyor is fixed with the frame which corresponds to the discharge trolley;

the frame of the discharge trolley of the second-level belt conveyor is arranged between the belt and the frame of the second-level belt conveyor, the belt of the second-level belt conveyor is wound with the first guide wheel and the second guide wheel corresponding to the discharge trolley, the top of the frame of the second-level belt conveyor is in rolling contact with the walking wheels corresponding to the discharge trolley, the steel wire rope of the fixed winch of the discharge trolley of the second-level belt conveyor is wound with the guide wheel of the second-level belt conveyor, and the steel wire rope of the fixed winch of the discharge trolley of the second-level belt conveyor is fixed with the frame corresponding to the discharge trolley.

Preferably, the slow descending feeding barrel consists of a plurality of tapered barrels connected end to end, the top end of each tapered barrel is a wide opening, the bottom end of each tapered barrel is a narrow opening, the bottom end of each tapered barrel extends into the bottom of the tapered barrel, and every two adjacent tapered barrels are fixedly connected through a chain.

Preferably, the one-level belt feeder sets up from feed end to blanking end slant, the below of one-level belt feeder is equipped with the bracing beam, the one end of bracing beam with the feed end bottom of one-level belt feeder is fixed, the other end and the slewer outer fringe of bracing beam are fixed.

Preferably, the steel wire rope cable-stayed device comprises a lifting winch fixed in the truss-type tower column, a tower column root guide wheel rotationally arranged on one side of the lifting winch, a left tower column top guide wheel and a right tower column top guide wheel rotationally arranged on the top of the truss-type tower column, a left middle guide wheel and a right middle guide wheel rotationally arranged on the middle of the secondary belt conveyor, a left first side guide wheel and a right first side guide wheel rotationally arranged below one side of the top of the truss-type tower column, a left end guide wheel and a right end guide wheel rotationally arranged at the tail end of the secondary belt conveyor, a left second side guide wheel and a right second side guide wheel rotationally arranged below one side of the top of the truss-type tower column and respectively arranged above the left first side guide wheel and the right first side guide wheel, and the end of the steel wire rope of the lifting winch sequentially bypasses the tower column root guide wheel, the left end of the steel wire rope and the right end of the lifting winch, The right tower column top guide wheel, the right side middle guide wheel, the right first lateral guide wheel, the left side middle guide wheel, the left tower column top guide wheel, the left side end guide wheel, the left second lateral guide wheel, the right side end guide wheel and the truss type tower column top are fixed.

The utility model has the advantages that: the belt is used for continuous conveying, so that the grade of concrete is reduced, and the conveying difficulty is reduced, so that the conveying cost is reduced, and the working efficiency can be improved; the crawler-type travelling mechanism and the slewing gear of the existing normal production excavator are utilized to realize the moving and rotating functions of the device, the using effect is improved, the research and development, design and manufacturing costs are reduced, the blanking area can be increased by the rotation of the device, the device can be assembled on site, and the device can be disassembled on site, loaded and transferred to the field for reuse after being used up; the elevation angle of the second-stage belt conveyor is controlled by adjusting the lifting of the tail end of the second-stage belt conveyor, so that the discharging trolley is favorable for discharging materials to the construction bin surfaces with different heights.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present 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, it is obvious that the drawings in the following description are only 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 view of the overall structure of the present invention;

FIG. 2 is a schematic view of a dump car;

FIG. 3 is a right side view of FIG. 2;

FIG. 4 is a schematic view of the two-stage belt conveyor configuration of FIG. 1;

FIG. 5 is a top plan view of the cable-stayed device of FIG. 4;

FIG. 6 is a schematic view of the configuration of the one-stage belt conveyor of FIG. 1;

fig. 7 is a top view of fig. 6.

In the figure: the device comprises a travelling mechanism 1, a truss type tower column 2, a primary belt conveyor 3, a secondary belt conveyor 4, a fixed belt conveyor 5, a discharge trolley 6, a frame 6.1, a chassis 6.1.1, travelling wheels 6.1.2, an oblique beam 6.1.3, an oblique strut 6.1.4, a first guide wheel 6.1.5, a second guide wheel 6.1.6, a fixed winch 6.2, a slow descending feeding barrel 7, a conical barrel 7.1, a guide chute 8, a W-shaped distributing hopper 9, a guide wheel 10, an oblique supporting beam 11, a steel wire rope oblique-pulling device 12, a lifting winch 12.1, a tower root guide wheel 12.2, a right tower top guide wheel 12.3, a right middle guide wheel 12.4, a right first side guide wheel 12.5, a left first side guide wheel 12.6, a left middle guide wheel 12.7, a left tower top guide wheel 12.8, a left side tail end guide wheel 12.9, a left second side guide wheel 12.10, a right second side guide wheel 12.11 and a right side guide wheel 12.12.11.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 7, the mobile material distribution device for the hydro junction comprises a travelling mechanism 1, a truss tower 2, a primary belt conveyor 3, a secondary belt conveyor 4, a fixed belt conveyor 5, a discharge trolley 6 and a slow-descending feed cylinder 7, wherein the fixed belt conveyor 5 is connected with the discharge trolley 6 in a sliding manner, a material guide chute 8 is fixedly connected to a blanking port of the discharge trolley 6 on the fixed belt conveyor 5, an outlet of the material guide chute 8 is connected with a feed end of the primary belt conveyor 3, a blanking end of the primary belt conveyor 3 is connected with a feed end of the secondary belt conveyor 4, the secondary belt conveyor 4 is connected with the discharge trolley 6 in a sliding manner, a W-shaped material distribution hopper 9 is fixedly connected to a blanking port of the discharge trolley 6 on the secondary belt conveyor 4, two outlets of the W-shaped material distribution hopper 9 are respectively connected with the top end of the slow-descending feed cylinder 7, concrete is delivered to the primary belt conveyor 3 through the discharge trolley 6 and the material guide chute 8 by the fixed belt conveyor 5, then the materials are conveyed to a second-stage belt conveyor 4 by a first-stage belt conveyor 3, and then are conveyed to a slow-descending feeding cylinder 7 through an unloading trolley 6 and a W-shaped distributing hopper 9 of the second-stage belt conveyor 4, and finally are conveyed into a construction pit, wherein the W-shaped distributing hopper 9 is arranged above the second-stage belt conveyor 4, the outlets of the W-shaped distributing hopper 9 are discharged from two sides of the second-stage belt conveyor 4 through the slow-descending feeding cylinder 7, and are continuously conveyed by a belt, normal concrete can be prepared in a three-stage mode, the grade of the concrete is reduced, the using amount of the cement is saved, the transportation difficulty is reduced, so that the conveying cost is reduced, and the working efficiency can also be improved;

the top of the travelling mechanism 1 is rotatably connected with the bottom end of the truss type tower column 2, the travelling mechanism 1 comprises a crawler type travelling mechanism and a slewing gear of a normal production excavator, the bottom end of the truss type tower column 2 is fixed with the slewing gear of the normal production excavator, the moving and rotating functions of the device are realized by utilizing the crawler type travelling mechanism and the slewing gear of the existing normal production excavator, the using effect is improved, the research and development, design and manufacturing costs are reduced, the blanking area can be increased by the rotation of the device, the device can be moved to any construction destination, and the dismounting time is saved;

the feeding end of the primary belt conveyor 3 is fixed with the top end of the truss-type tower column 2 through a steel wire rope, and the blanking end of the primary belt conveyor 3 is fixed with one side of the truss-type tower column 2;

the feeding end of the secondary belt conveyor 4 is rotatably connected with the other side of the truss type tower column 2, the secondary belt conveyor 4 is fixedly connected with the top end of the truss type tower column 2 through a steel wire rope cable-stayed device 12, the steel wire rope cable-stayed device 12 comprises a lifting winch 12.1 fixed in the truss type tower column 2, a tower column root guide wheel 12.2 rotatably arranged on one side of the lifting winch 12.1, a left tower column top guide wheel 12.8 and a right tower column top guide wheel 12.3 rotatably arranged on the top of the truss type tower column 2, a left middle guide wheel 12.7 and a right middle guide wheel 12.4 rotatably arranged in the middle of the secondary belt conveyor 4, a left first side guide wheel 12.6 and a right first side guide wheel 12.5 rotatably arranged below one side of the top of the truss type tower column 2, a left end guide wheel 12.9 and a right end guide wheel 12.12 rotatably arranged at the end of the secondary belt conveyor 4, and a left end guide wheel 12.12 rotatably arranged below one side of the top of the truss type tower column 2, a left second side guide wheel 12.10 and a right second side guide wheel 12.11 respectively arranged above the left first side guide wheel 12.6 and the right first side guide wheel 12.5, the end part of a steel wire rope of the lifting winch 12.1 sequentially bypasses a tower root guide wheel 12.2, a right tower top guide wheel 12.3, a right middle guide wheel 12.4, a right first side guide wheel 12.5, a left first side guide wheel 12.6, a left middle guide wheel 12.7, a left tower top guide wheel 12.8, a left tail end guide wheel 12.9, a left second side guide wheel 12.10, a right second side guide wheel 12.11 and a right tail end guide wheel 12.12 and is fixed with the top of the truss type tower 2, the tail end of the secondary belt conveyor 4 is driven to upwarp by the contraction of the steel wire rope of the lifting winch 12.1, and the dead weight of the secondary belt conveyor 4 descends when the steel wire rope of the lifting winch 12.1 is loosened, so that the elevation angle adjustment of the secondary belt conveyor 4 is controlled, and the discharging trolley 6 is favorable for discharging materials into construction pits with different heights.

The unloading trolley 6 comprises a trolley frame 6.1 and a fixed winch 6.2, the trolley frame 6.1 comprises a chassis 6.1.1, the bottom of the chassis 6.1.1 is rotatably connected with a travelling wheel 6.1.2, an oblique beam 6.1.3 which is obliquely and upwardly arranged is fixed at the top of the chassis 6.1.1, an oblique strut 6.1.4 is fixed between the highest position of the oblique beam 6.1.3 and the chassis 6.1.1, the highest position of the oblique beam 6.1.3 is rotatably connected with a first guide wheel 6.1.5, and a second guide wheel 6.1.6 is rotatably connected on the oblique strut 6.1.4;

the frame 6.1 of the discharge trolley 6 of the fixed belt conveyor 5 is arranged between the belt of the fixed belt conveyor 5 and the frame, the belt of the fixed belt conveyor 5 is wound with the first guide wheel 6.1.5 and the second guide wheel 6.1.6 corresponding to the discharge trolley 6, the top of the frame of the fixed belt conveyor 5 is in rolling contact with the travelling wheel 6.1.2 corresponding to the discharge trolley 6, the steel wire rope of the fixed winch 6.2 of the discharge trolley 6 of the fixed belt conveyor 5 is wound with the guide wheel 10 rotatably arranged on the fixed belt conveyor 5, the steel wire rope of the fixed winch 6.2 of the discharge trolley 6 of the fixed belt conveyor 5 is fixed with the frame 6.1 corresponding to the discharge trolley 6, the discharge trolley 6 of the fixed belt conveyor 5 is pulled by the steel wire rope corresponding to the fixed winch 6.2, moving on the fixed belt conveyor 5, adjusting the blanking position, conveying the concrete material to the highest position of the inclined beam 6.1.3 by a belt of the fixed belt conveyor 5, and dropping into the guide chute 8;

the frame 6.1 of the discharge trolley 6 of the secondary belt conveyor 4 is arranged between the belt and the frame of the secondary belt conveyor 4, the belt of the secondary belt conveyor 4 is wound with the first guide wheel 6.1.5 and the second guide wheel 6.1.6 corresponding to the discharge trolley 6, the top of the frame of the secondary belt conveyor 4 is in rolling contact with the travelling wheel 6.1.2 corresponding to the discharge trolley 6, the steel wire rope of the fixed winch 6.2 of the discharge trolley 6 of the secondary belt conveyor 4 is wound with the guide wheel 10 rotatably arranged on the secondary belt conveyor 4, the steel wire rope of the fixed winch 6.2 of the discharge trolley 6 of the secondary belt conveyor 4 is fixed with the frame 6.1 corresponding to the discharge trolley 6, the discharge trolley 6 of the secondary belt conveyor 4 is connected in series with the steel wire rope corresponding to the fixed winch 6.2, under the reciprocating traction of the steel wire rope, the discharge trolley moves on the secondary belt conveyor 4, the blanking position is adjusted, the concrete material is conveyed to the highest position of the inclined beam 6.1.3 by the belt of the secondary belt 4, falls into the W-shaped hopper 9.

A slowly falling feed cylinder 7 comprises a plurality of end-to-end connection's a toper section of thick bamboo 7.1, the top of every toper section of thick bamboo 7.1 is wide mouthful, the bottom is the slot, the top of below toper bucket is stretched into to the bottom of every toper section of thick bamboo 7.1, and through chain fixed connection between two adjacent toper sections of thick bamboo 7.1, when concrete material passes through every toper section of thick bamboo 7.1, all by wide mouthful to the slot, so strike toper section of thick bamboo 7.1 inner wall, the falling speed has been slowed down, avoid concrete material to descend too fast, and is not easy to control, cause the paving material in the construction pit uneven.

The one-level belt feeder 3 sets up from the feed end to blanking end slant, and the below of one-level belt feeder 3 is equipped with bracing beam 11, and the one end of bracing beam 11 is fixed with the feed end bottom of one-level belt feeder 3, and the other end of bracing beam 11 is fixed with the slewer outer fringe.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The movable distributing device for the hydro junction is characterized by comprising a travelling mechanism, a truss type tower column, a primary belt conveyor, a secondary belt conveyor, a fixed belt conveyor, an unloading trolley and a slow-falling feeding barrel, wherein the fixed belt conveyor is connected with the unloading trolley in a sliding manner, a blanking port of the unloading trolley on the fixed belt conveyor is fixedly connected with a guide chute, an outlet of the guide chute is connected with a feeding end of the primary belt conveyor, a blanking end of the primary belt conveyor is connected with a feeding end of the secondary belt conveyor, the secondary belt conveyor is connected with the unloading trolley in a sliding manner, a blanking port of the unloading trolley on the secondary belt conveyor is fixedly connected with a W-shaped distributing hopper, and two outlets of the W-shaped distributing hopper are respectively connected with the top end of the slow-falling feeding barrel;

the top of the walking mechanism is rotationally connected with the bottom end of the truss type tower column;

the feeding end of the primary belt conveyor is fixed with the top end of the truss-type tower column through a steel wire rope, and the blanking end of the primary belt conveyor is fixed with one side of the truss-type tower column;

the feed end of the second-level belt conveyor is rotatably connected with the other side of the truss type tower column, and the second-level belt conveyor is fixedly connected with the top end of the truss type tower column through a steel wire rope cable-stayed device.

2. The mobile distribution device for a hydro-junction according to claim 1, wherein: the walking mechanism comprises a crawler-type walking mechanism and a rotating device of the positive production excavator, and the bottom end of the truss-type tower column is fixed with the rotating device of the positive production excavator.

3. The mobile distribution device for a hydro-junction according to claim 1, wherein: the unloading trolley comprises a frame and a fixed winch, wherein the frame comprises a chassis, the bottom of the chassis is rotatably connected with walking wheels, an oblique beam which is obliquely arranged upwards is fixed at the top of the chassis, an oblique strut is fixed between the highest part of the oblique beam and the chassis, the highest part of the oblique beam is rotatably connected with a first guide wheel, and a second guide wheel is rotatably connected to the oblique strut;

the frame of the discharge trolley of the fixed belt conveyor is arranged between the belt of the fixed belt conveyor and the frame, the belt of the fixed belt conveyor is wound with the first guide wheel and the second guide wheel which correspond to the discharge trolley, the top of the frame of the fixed belt conveyor is in rolling contact with the traveling wheels which correspond to the discharge trolley, the steel wire rope of the fixed winch of the discharge trolley of the fixed belt conveyor is wound with the guide wheel which is rotatably arranged on the fixed belt conveyor, and the steel wire rope of the fixed winch of the discharge trolley of the fixed belt conveyor is fixed with the frame which corresponds to the discharge trolley;

the frame of the discharge trolley of the second-level belt conveyor is arranged between the belt and the frame of the second-level belt conveyor, the belt of the second-level belt conveyor is wound with the first guide wheel and the second guide wheel corresponding to the discharge trolley, the top of the frame of the second-level belt conveyor is in rolling contact with the walking wheels corresponding to the discharge trolley, the steel wire rope of the fixed winch of the discharge trolley of the second-level belt conveyor is wound with the guide wheel of the second-level belt conveyor, and the steel wire rope of the fixed winch of the discharge trolley of the second-level belt conveyor is fixed with the frame corresponding to the discharge trolley.

4. The mobile distribution device for a hydro-junction according to claim 1, wherein: the slow descending feeding barrel is composed of a plurality of tapered barrels connected end to end, the top end of each tapered barrel is a wide opening, the bottom end of each tapered barrel is a narrow opening, the bottom end of each tapered barrel extends into the lower portion of the top end of each tapered barrel, and every two adjacent tapered barrels are fixedly connected through a chain.

5. The mobile distribution device for a hydro-junction according to claim 1, wherein: the one-level belt feeder sets up from feed end to blanking end slant, the below of one-level belt feeder is equipped with the bracing beam, the one end of bracing beam with the feed end bottom of one-level belt feeder is fixed, the other end and the slewer outer fringe of bracing beam are fixed.

6. The mobile distribution device for a hydro-junction according to claim 1, wherein: the steel wire rope diagonal pulling device comprises a lifting winch fixed in the truss type tower column, a tower column root guide wheel rotatably arranged on one side of the lifting winch, a left tower column top guide wheel and a right tower column top guide wheel rotatably arranged on the top of the truss type tower column, a left middle guide wheel and a right middle guide wheel rotatably arranged on the middle of the secondary belt conveyor, a left first side guide wheel and a right first side guide wheel rotatably arranged below one side of the top of the truss type tower column, a left side end guide wheel and a right side end guide wheel rotatably arranged at the tail end of the secondary belt conveyor, a left second side guide wheel and a right second side guide wheel rotatably arranged below one side of the top of the truss type tower column and respectively arranged above the left first side guide wheel and the right first side guide wheel, and a steel wire rope of the lifting winch sequentially bypasses the tower column root guide wheel, the left side guide wheel and the right side guide wheel, The right tower column top guide wheel, the right side middle guide wheel, the right first lateral guide wheel, the left side middle guide wheel, the left tower column top guide wheel, the left side end guide wheel, the left second lateral guide wheel, the right side end guide wheel and the truss type tower column top are fixed.

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