CN114013984A - Bridge type material conveying line - Google Patents

Abstract

The invention discloses a bridge type material conveying line which comprises a climbing belt, a conveying bridge, a material lifting mechanism and a turning conveying frame, wherein the climbing belt is arranged on the conveying bridge; the climbing belt is used for conveying and lifting materials; the conveying bridge is used for transregional conveying of materials, a roller conveying structure for conveying the materials and a roller driving motor for driving the roller conveying structure to operate are arranged on the conveying bridge, and one end of the roller conveying structure on the conveying bridge is butted with the top end of the climbing belt; the material lifting mechanism is used for conveying materials on the conveying bridge, and the top of the material lifting mechanism is butted with the other end of the roller conveying structure on the conveying bridge. The material is lifted from the horizontal position, so that the long-distance transportation across obstacles and regions is realized, the material conveying efficiency is effectively improved, and the problems that the existing conveying line is short in conveying distance and cannot realize the trans-region conveying are solved; and the structure is stable and reliable, and the operation is efficient.

Description

Bridge type material conveying line

Technical Field

The invention relates to the technical field of material conveying, in particular to a bridge type material conveying line.

Background

With the improvement of the production automation level of enterprises, the enterprises introduce manipulators to bring about high-efficiency production, and meanwhile, conveying lines in the production line need to be matched with the manipulators to adapt to high-efficiency automatic production; however, the transmission distance of the currently and generally adopted transmission lines is short and trans-regional transmission cannot be realized; therefore, it is urgently needed to design a conveying line which has a long conveying distance and can carry out transregional conveying.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the invention is to provide a bridge type material conveying line, which can realize long-distance transregional material conveying.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

this bridge type material transfer chain includes:

the climbing belt is used for conveying and lifting materials;

the conveying bridge is used for transregional conveying of materials, a roller conveying structure for conveying the materials and a roller driving motor for driving the roller conveying structure to operate are arranged on the conveying bridge, and one end of the roller conveying structure on the conveying bridge is butted with the top end of the climbing belt;

and the material lifting mechanism is used for conveying the material on the conveying bridge, and the top of the material lifting mechanism is butted with the other end of the roller conveying structure on the conveying bridge.

Furthermore, still include turn carriage and material rack, the one end of turn carriage docks with material elevating system's bottom, and the other end setting that the material rack corresponds the turn carriage.

Be equipped with the gusset that is used for the material location on the climbing belt, the both sides limit that corresponds the climbing belt all is equipped with the direction limiting plate that is used for the material direction spacing.

The conveying bridge comprises a bridge frame and a material conveying cover, wherein the roller conveying structure and the material conveying cover are arranged at the top of the bridge frame, the material conveying cover is provided with cover bodies with openings at two ends and at the lower part, and the opening at the lower part corresponds to the roller conveying structure.

The material lifting mechanism is a material vertical lifting structure.

The turning conveying frame comprises a turning roller section, a discharging conveying belt section and a discharging roller section which are sequentially connected, the end part of the turning roller section is butted with the bottom of the material lifting mechanism, and the end part of the discharging roller section is arranged corresponding to the material placing frame.

The bridge frame is provided with a bridge deck, one side, located on the bridge deck, of the top of the bridge deck is provided with a suspended stretching frame, and the roller conveying structure is arranged on the stretching frame to form a suspended conveying bridge structure.

The material lifting mechanism comprises a three-dimensional frame structure, a lifting circulation chain I, a lifting circulation chain II, a group of soft support plate chain components used for material descending and a lifting driving motor used for driving the two circulation chains to run are arranged in the frame structure, the upper portion of the lifting circulation chain I forms a frame structure, the upper portion of the lifting circulation chain II corresponds to one side of the frame structure and is arranged, one end of the soft support plate chain components is connected with the lifting circulation chain I, and the other end of the soft support plate chain components is connected with the lifting circulation chain II.

Compared with the prior art, the invention has the following advantages:

the bridge type material conveying line is reasonable in structural design, materials are lifted from a horizontal position, obstacle-crossing and trans-regional long-distance transportation is achieved, the material conveying efficiency is effectively improved, and the problems that the existing conveying line is short in conveying distance and cannot achieve trans-regional conveying are solved; and the structure is stable and reliable, and the operation is efficient.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

fig. 1 is a schematic side view of the conveyor line of the present invention.

Fig. 2 is a schematic plan view of the conveyor line of the present invention.

Fig. 3 is a perspective view of the conveyor line of the present invention.

Fig. 4 is a schematic structural view of the material climbing belt of the present invention.

Fig. 5 is a first structural schematic diagram of the material lifting mechanism of the present invention.

Fig. 6 is a schematic view of the structure of the turning conveyor of the invention.

Fig. 7 is a schematic structural diagram of a material lifting mechanism according to the second embodiment of the present invention.

In the figure:

1. the automatic feeding device comprises a conveying bridge, 2. a climbing driving motor, 3. a climbing belt, 301. a rib plate, 4. a roller driving motor, 5. a driving roller, 6. a driven roller, 7. a conveying bridge chain, 8. a material lifting mechanism, 801. a frame structure, 802. a soft carrier plate chain assembly, 9. a lifting driving motor, 10. a lifting mechanism chain, 1001. a lifting circulation chain I, 1002. a lifting circulation chain II, 11. a turning conveying frame, 1101. a turning roller, 1102. a blanking conveying belt, 1103. a blanking roller and 12. a bridge structure.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, the bridge type material conveying line comprises a climbing belt 3, a conveying bridge 1, a material lifting mechanism 8 and a turning conveying frame 11; the climbing belt is used for conveying and lifting materials; the conveying bridge is used for transregional conveying of materials, a roller conveying structure for conveying the materials and a roller driving motor 4 for driving the roller conveying structure to operate are arranged on the conveying bridge, and one end of the roller conveying structure on the conveying bridge is butted with the top end of the climbing belt; the material lifting mechanism is used for conveying materials on the conveying bridge, and the top of the material lifting mechanism is butted with the other end of the roller conveying structure on the conveying bridge.

Climbing belt 3 is established on the slope sets up the support frame, is equipped with the climbing driving motor 2 that is used for driving the climbing belt operation on the support frame, is equipped with the gusset 301 that is used for the material location on the climbing belt, and the both sides limit that corresponds the climbing belt on the support frame all is equipped with the spacing direction limiting plate that is used for the material direction, and the material is carried to the cylinder transport structure of conveying bridge from horizontal position and is gone up the stable high efficiency of operation.

The conveying bridge comprises a bridge structure 12 and a material conveying cover, the roller conveying structure and the material conveying cover are both arranged at the top of the bridge, the material conveying cover is a cover body with openings at two ends and at the lower part, the opening at the lower part corresponds to the roller conveying structure, the material conveying cover can effectively avoid external interference on material conveying, and the operation is stable and reliable; and the structure is compact.

The bridge structure is provided with a bridge deck, one side, positioned on the bridge deck, of the top of the bridge deck structure is provided with a suspended extending frame, the roller conveying structure is arranged on the extending frame to form a suspended conveying bridge structure, and the suspended arrangement of the main body operation structure of the conveying line is favorable for arrangement and installation in a workshop; the roller conveying structure comprises a driving roller 5 and a driven roller 6, and the driving roller is connected with the roller driving motor 4 through a conveying bridge chain 7.

The material lifting mechanism 8 is a vertical material lifting structure, occupies small space and is beneficial to arrangement and installation in a workshop; one end of the turning conveying frame 11 is butted with the bottom of the material lifting mechanism, and the material placing frame in the workshop is arranged corresponding to the other end of the turning conveying frame.

Preferably, the turning conveying frame 11 comprises a turning roller 1101 section, a blanking conveying belt 1102 section and a blanking roller 1103 section which are sequentially connected, the end part of the turning roller section is butted with the bottom of the material lifting mechanism 8, and the end part of the blanking roller section is arranged corresponding to the material placing rack; the blanking conveying belt section is arranged at the middle section, so that the stability of blanking operation is facilitated.

Preferably, the material lifting mechanism comprises a three-dimensional frame structure 801, wherein a lifting circulating chain I1001, a lifting circulating chain II 1002, a group of soft carrier plate chain assemblies 802 arranged on the two circulating chains and used for lowering materials, and a lifting driving motor 9 used for driving the two circulating chains to run are arranged in the frame structure; a set of soft support plate chain subassembly can the continuous operation material descend, and the unloading operation of traditional elevating platform is more high-efficient relatively.

The lifting mechanism chain 10 in the frame structure comprises two groups of lifting circulation chains I and lifting circulation chains II, the upper parts of the lifting circulation chains I form a frame structure, the upper parts of the lifting circulation chains II are arranged corresponding to one side of the frame structure, a group of soft support plate chain components are arranged at intervals, one end of each soft support plate chain component is connected with the lifting circulation chain I, and the other end of each soft support plate chain component is connected with the lifting circulation chain II; and two ends of the soft carrier plate chain component synchronously descend and run.

Furthermore, the lifting circulation chain I is a pair of left and right corresponding arrangement, the lifting circulation chain II is a pair of left and right corresponding arrangement, a group of shaft assemblies used for supporting the chains are arranged in the frame structure, each shaft assembly comprises a shaft arranged on the frame structure and a chain wheel arranged on the shaft, the circulation chain is matched with the chain wheel, the lifting driving motor is connected with one shaft end of the lifting driving motor, the structure is compact, and the operation is stable and reliable.

The soft carrier plate chain component 802 comprises carrier plate supports positioned at two ends, the two carrier plate supports are connected through a carrier chain, a group of parallel carrier plate strips are arranged on the carrier chain, one group of carrier plate strips are used for carrying materials, a gap is formed between every two adjacent carrier plate strips, one carrier plate support at one end of each soft carrier plate chain component is connected with a lifting circulation chain I, and the other carrier plate support at the other end of each soft carrier plate chain component is connected with a lifting circulation chain II; a group of guide wheels are arranged at the bottom of the frame structure and used for steering and circulating operation of the circulating chain and the soft carrier plate chain assembly.

The bridge type material conveying line is reasonable in structural design, materials are lifted from the horizontal position, obstacle-crossing and trans-regional long-distance transportation is achieved, the material conveying efficiency is effectively improved, and the problems that the existing conveying line is short in conveying distance and cannot achieve trans-regional conveying are solved; and the structure is stable and reliable, the crossing type automatic transportation of materials is realized, and the labor and time waste caused by manual bypass transportation is reduced.

The above-mentioned features are merely for describing preferred embodiments of the present invention and may be arbitrarily combined to form a plurality of embodiments of the present invention.

The invention is described above with reference to the accompanying drawings, it is obvious that the specific implementation of the invention is not limited by the above-mentioned manner, and it is within the scope of the invention to adopt various insubstantial modifications of the inventive concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (8)

1. The utility model provides a bridge type material transfer chain which characterized in that: the method comprises the following steps:

the climbing belt is used for conveying and lifting materials;

the conveying bridge is used for transregional conveying of materials, a roller conveying structure for conveying the materials and a roller driving motor for driving the roller conveying structure to operate are arranged on the conveying bridge, and one end of the roller conveying structure on the conveying bridge is butted with the top end of the climbing belt;

and the material lifting mechanism is used for conveying the material on the conveying bridge, and the top of the material lifting mechanism is butted with the other end of the roller conveying structure on the conveying bridge.

2. The bridge material conveyor line of claim 1, wherein: still include turn carriage and material rack, the one end of turn carriage docks with material elevating system's bottom, and the material rack corresponds the other end setting of turn carriage.

3. The bridge material conveyor line of claim 1, wherein: be equipped with the gusset that is used for the material location on the climbing belt, the both sides limit that corresponds the climbing belt all is equipped with the direction limiting plate that is used for the material direction spacing.

4. The bridge material conveyor line of claim 1, wherein: the conveying bridge comprises a bridge frame and a material conveying cover, wherein the roller conveying structure and the material conveying cover are arranged at the top of the bridge frame, the material conveying cover is provided with cover bodies with openings at two ends and at the lower part, and the opening at the lower part corresponds to the roller conveying structure.

5. The bridge material conveyor line of claim 1, wherein: the material lifting mechanism is a material vertical lifting structure.

6. The bridge material conveyor line of claim 2, wherein: the turning conveying frame comprises a turning roller section, a discharging conveying belt section and a discharging roller section which are sequentially connected, the end part of the turning roller section is butted with the bottom of the material lifting mechanism, and the end part of the discharging roller section is arranged corresponding to the material placing frame.

7. The bridge material conveying line according to claim 4, wherein: the bridge frame is provided with a bridge deck, one side, located on the bridge deck, of the top of the bridge deck is provided with a suspended stretching frame, and the roller conveying structure is arranged on the stretching frame to form a suspended conveying bridge structure.

8. The bridge material conveying line according to claim 5, wherein: the material lifting mechanism comprises a three-dimensional frame structure, a lifting circulation chain I, a lifting circulation chain II, a group of soft support plate chain components used for material descending and a lifting driving motor used for driving the two circulation chains to run are arranged in the frame structure, the upper portion of the lifting circulation chain I forms a frame structure, the upper portion of the lifting circulation chain II corresponds to one side of the frame structure and is arranged, one end of the soft support plate chain components is connected with the lifting circulation chain I, and the other end of the soft support plate chain components is connected with the lifting circulation chain II.

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