CN212607468U - Hippocampus-type lifting conveyer belt/conveyer trough conveyer - Google Patents

Hippocampus-type lifting conveyer belt/conveyer trough conveyer Download PDF

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Publication number
CN212607468U
CN212607468U CN202021395562.8U CN202021395562U CN212607468U CN 212607468 U CN212607468 U CN 212607468U CN 202021395562 U CN202021395562 U CN 202021395562U CN 212607468 U CN212607468 U CN 212607468U
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telescopic frame
frame
trough
conveyer
vertical
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李宇龙
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China 22MCC Group Corp Ltd
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China 22MCC Group Corp Ltd
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Abstract

The utility model provides a sea horse type lifting type conveying belt/conveying trough conveying device, which comprises a conveying belt/conveying trough and a frame body, wherein the frame body comprises an upper transverse telescopic frame body, a lower transverse telescopic frame body and a vertical telescopic frame body; one end of the upper transverse telescopic frame body is fixed on the first fixing unit, and the other end of the upper transverse telescopic frame body is fixed on the second fixing unit; the upper end of the vertical telescopic frame body is fixed on the second fixing unit and is connected with the upper transverse telescopic frame body, and the lower end of the vertical telescopic frame body is rotatably connected with one end of the lower transverse telescopic frame body; the conveyor/trough is arranged around the entire shelf surface. The utility model discloses can obtain the required transportation circuit of difference to realize continuous material transport, reduced the risk in the transportation simultaneously.

Description

Hippocampus-type lifting conveyer belt/conveyer trough conveyer
Technical Field
The utility model relates to a transportation equipment field particularly, relates to a sea horse type promotes formula conveyer belt/conveyer trough conveyer.
Background
With the development of economy and society, construction projects are greatly increased. In the work progress, need carry various materials, the efficiency of material transportation influences the speed of construction progress. At present, traditional machines such as tower cranes, truck cranes, construction ladders and material elevators are adopted for vertical transportation in construction sites. However, the construction ladder and the material hoister are suitable for transporting above the foundation surface, and the foundation is fixed and cannot move. Aiming at the construction of the existing foundation pit, deep well and cyclone well, the transportation machinery adopts traditional machinery such as a tower crane, an automobile crane and the like, but the efficiency of the tower crane and the automobile crane unearthed transportation is low, so that the construction cost is high and the construction progress is slow; and the mode of unearthing and transporting the hanging bucket by the hook is adopted, so that the risk of large potential safety hazard is caused.
SUMMERY OF THE UTILITY MODEL
To above technical problem, the utility model provides a sea horse type promotes formula conveyer belt/conveyer trough conveyer aims at realizing that the form is changeable, be suitable for extensive, transportation in succession, high-efficient economy and the high transportation of security, and it is applicable to the outside and has fixed basis, can fix and bear the weight of the conveyer upper end through fixed basis, and the construction of nimble rotation can be realized to the conveyer lower extreme, and the cast-in-place open caisson method of specially adapted whirl well is under construction.
The utility model adopts the following technical scheme:
a sea horse type lifting conveyor belt/conveying trough conveying device comprises a conveyor belt/conveying trough and a frame body, wherein the frame body comprises an upper transverse telescopic frame body, a lower transverse telescopic frame body and a vertical telescopic frame body; one end of the upper transverse telescopic frame body is fixed on the first fixing unit, and the other end of the upper transverse telescopic frame body is fixed on the second fixing unit; the upper end of the vertical telescopic frame body is fixed on the second fixing unit and is connected with the upper transverse telescopic frame body, and the lower end of the vertical telescopic frame body is rotatably connected with one end of the lower transverse telescopic frame body; the conveyor/trough is arranged around the entire shelf surface.
Compared with the prior art, the transportation device has the advantages that the horizontal distance and the elevation of the transportation device and the relative angle between the transverse telescopic frame body and the vertical telescopic frame body are simply and conveniently adjusted, so that different required transportation lines can be obtained, and continuous material transportation is realized; in addition, the loading buckets arranged through the conveyor belts/conveying grooves are used for scattered transportation, and risks in the transportation process are reduced.
Further, the quantity of vertical telescopic frame body and the horizontal telescopic frame body in lower part is a plurality ofly respectively, and the horizontal telescopic frame body in lower part is regarded as the horizontal telescopic frame body in upper portion for the vertical telescopic frame body that is connected next, and every vertical telescopic frame body both ends rotate with the one end of the horizontal telescopic frame body in upper portion and lower part that corresponds respectively and are connected, and whole support body is multistage stair structure.
Further, the upper horizontal telescopic frame body, the vertical telescopic frame body and the lower horizontal telescopic frame body respectively comprise frame body bodies arranged at two ends and telescopic units connected between the two frame body bodies.
Furthermore, the first fixing unit and the second fixing unit are respectively stress steel beams and are supported and fixed through fixing structures, and the fixing structures are steel columns, concrete columns or other existing main body structures.
Furthermore, a plurality of connecting holes are formed in the two ends of the conveying belt/conveying groove, the conveying belt/conveying groove is spliced through the connecting holes, and a loading hopper is arranged on the surface of the conveying belt.
Drawings
FIG. 1 is a schematic view of the structure of a frame body with a section of vertical telescopic frame body of the present invention;
FIG. 2 is a front view of the conveyor belt structure of the present invention;
FIG. 3 is a side view of the conveyor belt structure of the present invention;
FIG. 4 is a schematic view of a conveyor belt looped around a frame;
FIG. 5 is a schematic view of the structure of the multi-section vertical telescopic frame of the present invention;
in the figure: 1-upper horizontal telescopic frame body; 2-vertical telescopic frame body; 3-lower part of the horizontal telescopic frame body; 4-a first fixation unit; 5-a second fixation unit; 6-a telescopic unit; 7-a power unit; 8-a conveyor belt; 9-a loading hopper; 10-connecting holes; 11-drive chain.
Detailed Description
The invention will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that the following description is only for purposes of clearly illustrating the present invention and is not to be taken in a limiting sense.
Referring to fig. 1 to 4, a conveyor transport apparatus is illustrated as an example, and a sea horse type elevating conveyor transport apparatus is composed of a frame body and a conveyor. The support body is by upper portion horizontal telescopic support body 1, vertical telescopic support body 2 and the horizontal telescopic support body 3 in lower part are constituteed, wherein, every telescopic support body comprises the support body that sets up at both ends and the telescopic unit 6 that links together the support body at both ends, the support body is the truss structure, telescopic unit 6 and the support body fixed connection at both ends, telescopic unit can be for electronic hydraulic telescopic machanism, regulation structures such as electromechanical telescopic machanism, stretch out and draw back through the power pack drive, thereby change conveyer's vertical transport height and horizontal transport distance.
According to the actual environment of a construction site, a section steel column, a concrete column or an existing main body structure and the like are selected as reliable bearing ends, a connecting steel beam is fixedly erected between two different bearing ends, and the connecting steel beam is kept parallel to the horizontal plane. The two stressed steel beams are respectively used as a first fixing unit 4 and a second fixing unit 5 and hung on the connecting steel beam at a set interval, wherein the set interval is equal to the initial length of the upper transverse telescopic frame body 1, and the stressed steel beams are beam structures such as I-steel, H-shaped steel or cast-in-place concrete. The horizontal telescopic frame body 1 one end in upper portion is fixed to first fixed unit 4, and the other end then is fixed to the fixed unit 5 of second, provides the bearing capacity for the horizontal telescopic frame body 1 in upper portion through first fixed unit 4 and the fixed unit 5 of second. The upper end of the vertical telescopic frame body 2 is also fixed to the second fixing unit 5 and is rotatably connected with the upper horizontal telescopic frame body 1 through a rotating shaft. The lower end of the vertical telescopic frame body 2 is rotatably connected with one end of the lower transverse telescopic frame body 3 through a rotating shaft, and the other end of the lower transverse telescopic frame body 3 is used as a free end.
The conveyer belt 8 encircles the setting of whole support body surface, realizes continuous transportation. The conveyor belt 8 can be made of various materials such as metal, plastic high polymer materials, rubber, similar tires and the like, and can be lapped and continuously transmitted on the frame body as long as the bearing capacity of the materials is met. The conveyor belt 8 can also be made in various forms, sizes and dimensions according to the actual needs. The upper surface of the conveyor belt 8 is provided with a loading hopper 9 designed in the form of a conical opening, as shown in fig. 2 and 3, but of course it can also have other suitable shapes. The loading bucket 8 may be made of various materials such as metal, plastic polymer material, rubber, similar tires, etc., as long as the bearing capacity of the material is satisfied. The loading hopper 9 is naturally opened by gravity to load when moving upwards, and the transported materials in the hopper naturally fall by gravity when moving downwards. 8 both ends of conveyer belt are provided with connecting hole 10, and for fastness when reinforcing the conveyer belt overlap joint, connecting hole 10 divides the multirow equipartition setting, and the shape can be for circular or other suitable shapes, as long as satisfy that the overlap joint is firm, easy dismounting can. 8 length direction both sides of conveyer belt set up drive chain 11, drive chain 11 operation through set up on the support body with the gear shaft of 11 meshing of drive chain to realize the material transport function of conveyer belt. The conveying belt can also be driven by a carrier roller and a compression roller which are driven by a power unit to realize the operation of the conveying belt.
The stiff end of the horizontal flexible support body 1 in upper portion and the free end of the horizontal flexible support body 3 in lower part set up power unit 7 respectively, the horizontal flexible support body 1 in upper portion and the horizontal flexible support body 3 in lower part also set up power unit 7 respectively with the junction of vertical flexible support body 2, power unit 7 is for motor or the fuel engine that can provide two-way power, provide power through power unit for telescopic unit 6 and make its extension or shorten, provide power for the pivot of connecting horizontal flexible support body and vertical flexible support body and change the relative angle between horizontal flexible support body and the vertical flexible support body, and provide power for the gear shaft that drives conveying chain 11 and make conveyer belt 6 can transport the operation clockwise or anticlockwise.
In order to achieve a larger adjustment range, a plurality of lower transverse telescopic frame bodies and a plurality of longitudinal telescopic frame bodies may be provided. The initial setting is the same as embodiment 1, the difference lies in, the horizontal telescopic frame body in upper portion that is used as next coupling part with the horizontal telescopic frame body in lower part 3, its free end is connected through the pivot once more with vertical telescopic frame body, every vertical telescopic frame body both ends are connected through the pivot rotation with the horizontal telescopic frame body one end in upper portion and lower part that corresponds respectively, form multistage step structure, as shown in fig. 5, thereby when horizontal distance and elevation need be adjusted by a wide margin, need not to change the length of belt and adjust after dismantling the recombination, only need to adjust the relative angle between a plurality of horizontal telescopic frame bodies and the vertical telescopic frame body and can realize.
The use of the above-described hippocampal lift conveyor transport apparatus will be described below in conjunction with a whirlpool well sinking construction method.
The application of the sea horse type lifting conveyor belt conveying device is implemented by the following steps:
s1, selecting two appropriate fixing structures outside the cyclone well as bearing ends, enabling a connecting line of the two bearing ends to cross over the mouth of the cyclone well, installing and connecting steel beams on the bearing ends, and hanging a first fixing unit 4 and a second fixing unit 5 through the steel beams to support the frame body, wherein the section steel column, the concrete column, the existing main body structure and the like can be used as the bearing ends, and the first fixing unit 4 and the second fixing unit 5 are stressed section steel beams, such as I-beams and the like.
S2, fixing one end of the upper transverse telescopic frame body 1 to the first fixing device 4, and providing the power unit 6 at the end, and fixing the other end of the upper transverse telescopic frame body 1 to the second fixing device 5; the upper end of the vertical telescopic frame body 2 is also fixed on the second fixing unit 5 and is rotatably connected with the upper transverse telescopic frame body 1 through a rotating shaft, and a power unit 7 is arranged at the joint; the lower end of the vertical telescopic frame body 2 is rotatably connected with one end of the lower transverse telescopic frame body 3 through a rotating shaft, and a power unit 7 is arranged at the joint; the other end of the lower transverse telescopic frame body 3 is provided with a power unit 7.
S3, adjusting the horizontal telescopic frame body and the vertical telescopic frame body to be in a horizontal state and a vertical state respectively, and judging to use a plurality of sections of conveyor belts according to the annular circumference of the frame body and the length of the conveyor belts, so that the assembled conveyor belts are arranged around the surface of the whole frame body; when the horizontal distance, the elevation and the angle need to be dynamically adjusted in a small range, the power unit 7 drives the corresponding rotating shaft to rotate, so that the transverse telescopic frame body rotates relative to the vertical telescopic frame body; when the horizontal distance, the elevation and the angle are required to be adjusted greatly, the conveying belt is disassembled, the horizontal distance and the elevation are adjusted through the telescopic units, after the frame body is adjusted, the length of the conveying belt is increased or decreased according to the ring-assembling length of the frame body, and the conveying belt is installed on the frame body.
Or after the step S2 is finished, the step S2 is continuously and repeatedly executed in consideration of avoiding replacing the belt until the belt does not need to be replaced in the adjusting process, so that even when the horizontal distance, the elevation and the angle need to be greatly adjusted, the relative angles of the plurality of transverse telescopic frame bodies and the vertical telescopic frame bodies only need to be adjusted, and the multifunctional adjustable.
The utility model provides a conveyer belt also can replace with the transfer trough, and structural style is similar with the conveyer belt, does not restatee here, nevertheless because the conveyer belt sets up and loads the fill, is difficult to in the data send process and spills the material more. Furthermore, the utility model discloses disassemble the dispersion with great danger source, change into and transport through a lot of continuous loading fill, reduced danger source's danger, consequently, this transportation has higher security.
The above description is only the preferred embodiment of the present invention. Various modifications and equivalent changes may be made by those skilled in the art without departing from the spirit and scope of the present invention, and such modifications and changes are intended to be within the scope of the present invention.

Claims (5)

1. A sea horse type lifting conveyor belt/conveying trough conveying device comprises a conveyor belt/conveying trough and a frame body, and is characterized in that the frame body comprises an upper transverse telescopic frame body, a lower transverse telescopic frame body and a vertical telescopic frame body; one end of the upper transverse telescopic frame body is fixed on the first fixing unit, and the other end of the upper transverse telescopic frame body is fixed on the second fixing unit; the upper end of the vertical telescopic frame body is fixed on the second fixing unit and is connected with the upper transverse telescopic frame body, and the lower end of the vertical telescopic frame body is rotatably connected with one end of the lower transverse telescopic frame body; the conveyor/trough is arranged around the entire shelf surface.
2. The hippocampus type elevating conveyor/trough as claimed in claim 1, wherein the number of the vertical telescopic frame bodies and the number of the lower horizontal telescopic frame bodies are plural, respectively, the lower horizontal telescopic frame body is used as an upper horizontal telescopic frame body with respect to the next connected vertical telescopic frame body, both ends of each vertical telescopic frame body are rotatably connected with one end of the corresponding upper and lower horizontal telescopic frame bodies, respectively, and the whole frame body has a multi-step structure.
3. The hippocampus-type elevating conveyor/trough as claimed in claim 1, wherein the upper, vertical and lower lateral telescopic frames respectively comprise frame bodies provided at both ends and a telescopic unit connecting between the two frame bodies.
4. The hippocampal-type lift conveyor/trough transport apparatus of claim 1, wherein the first and second fixing units are respectively a stressed steel beam, and are supported and fixed by a fixing structure, which is a steel section column or a concrete column.
5. The hippocampal-type lift conveyer/trough as claimed in claim 1, wherein the conveyer/trough is provided with a plurality of coupling holes at both ends thereof, the conveyer/trough is spliced through the coupling holes, and a loading hopper is provided on the surface of the conveyer.
CN202021395562.8U 2020-07-16 2020-07-16 Hippocampus-type lifting conveyer belt/conveyer trough conveyer Active CN212607468U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021395562.8U CN212607468U (en) 2020-07-16 2020-07-16 Hippocampus-type lifting conveyer belt/conveyer trough conveyer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021395562.8U CN212607468U (en) 2020-07-16 2020-07-16 Hippocampus-type lifting conveyer belt/conveyer trough conveyer

Publications (1)

Publication Number Publication Date
CN212607468U true CN212607468U (en) 2021-02-26

Family

ID=74707020

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021395562.8U Active CN212607468U (en) 2020-07-16 2020-07-16 Hippocampus-type lifting conveyer belt/conveyer trough conveyer

Country Status (1)

Country Link
CN (1) CN212607468U (en)

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