阅读说明：本技术 一种公铁联运设备 (Road-rail combined transport equipment ) 是由 赵德连 于 2021-08-11 设计创作，主要内容包括：本发明公开了一种公铁联运设备,包括有吊机轨道架和集装箱吊车,吊机轨道架横跨火车轨道架设在火车站的集装箱周转站台上,集装箱吊车由牵引汽车和集装箱吊架组成；集装箱吊架包括有固定架和升降架；吊机轨道架的上方铺设有第一吊机轨道,升降架的顶端安装有用于与第一吊机轨道实现对接的第二吊机轨道；第二吊机轨道与第一吊机轨道对接后形成一条完整的吊机跑道；第二吊机轨道上设有吊机装置,吊机装置沿吊机跑道来回行走直接将火车上的集装箱吊运至集装箱汽车上或直接将集装箱汽车上的集装箱吊运至火车上或直接将一列火车上的集装箱吊运至另一列火车上。本发明能实现集装箱的快速转场,加快集装箱周转速度,从而提升陆路的运输效能。(The invention discloses highway-railway combined transportation equipment, which comprises a crane rail frame and a container crane, wherein the crane rail frame spans a train rail and is erected on a container transfer platform of a railway station, and the container crane consists of a traction automobile and a container hanger; the container hanger comprises a fixed frame and a lifting frame; a first crane rail is laid above the crane rail frame, and a second crane rail used for realizing butt joint with the first crane rail is installed at the top end of the lifting frame; the second crane track is in butt joint with the first crane track to form a complete crane runway; and the second crane track is provided with a crane device, and the crane device walks back and forth along the crane track to directly hoist the containers on the train to the container automobiles or directly hoist the containers on the container automobiles to the train or directly hoist the containers on one train to the other train. The invention can realize the rapid transition of the container and accelerate the container turnover speed, thereby improving the transport efficiency of the land.)

1. The utility model provides a highway-railway combined transportation equipment, includes loop wheel machine track frame (1) and container crane (D), characterized by: the crane track frame (1) is erected on a container turnover platform (T) of a railway station across a train track (G), and the container crane (D) consists of a traction automobile (2) and a container hanger (J) arranged on the traction automobile (2); the container hanger (J) comprises a fixed frame (3) welded and fixed on a carriage (21) of the tractor (2) and a lifting frame (4) capable of moving up and down along the fixed frame (3); a first crane rail (11) is laid above the crane rail frame (1), and a second crane rail (5) which is used for realizing butt joint with the first crane rail (11) after the crane (4) rises is installed at the top end of the crane (4); the second crane track (5) is butted with the first crane track (11) to form a complete crane runway; the second crane rail (5) is provided with a crane device for lifting the container (X), and the crane device walks back and forth along the second crane rail (5) and the first crane rail (11) to directly lift the container (X) on the train to the container automobile (9) or directly lift the container (X) on the container automobile (9) to the train or directly lift the container (X) on one train to the other train.

2. The road-rail intermodal transportation equipment as claimed in claim 1, wherein: the fixing frame (3) comprises four upright posts (31) which are welded at the edge of the carriage (21) in a rectangular layout, and a reinforcing beam (32) is connected between the upright posts (31) positioned at two sides of the carriage (21); and a guide sliding groove (31a) for guiding the lifting frame (4) to move up and down is formed on one surface of the upright post (31) facing to the outside.

3. The road-rail intermodal transportation equipment as claimed in claim 2, wherein: the lifting frame (4) is composed of four lifting columns (41), the four lifting columns (41) are slidably arranged in guide sliding grooves (31a) of corresponding upright columns (31), a lifting oil cylinder used for pushing the lifting columns (41) to lift up and down is installed on the lower portions of the upright columns (31), and lifting rods of the lifting oil cylinders are connected with the bottom ends of the lifting columns (41).

4. The road-rail intermodal transportation equipment as set forth in claim 3, wherein: each upright post (31) is provided with a support rod component which is used for being firmly contacted with the ground when the container crane (D) works and plays a role of main support; the supporting rod assembly comprises a supporting rod (42) connected with a conical fixed point support on the container transfer platform and a supporting oil cylinder used for pushing the supporting rod (42) to move downwards.

5. The road-rail intermodal transportation equipment as set forth in claim 4, wherein: the crane device consists of a crane main beam (61), a travelling wheel (62), a crane (63) and a hanger (64); the crane main beam (61) is an I-shaped beam consisting of two transverse beams (611) and a vertical beam (612), the travelling wheel (62) is arranged below the transverse beams (611), and the travelling wheel (62) is in rolling contact with the second crane track (5); the crane (63) is movably arranged on the vertical beam (612), the hanger (64) is hung on a hanging rod of the crane (63), and the hanger (64) is matched with the container (X) in a hanging mode.

6. The road-rail intermodal transportation equipment as set forth in claim 5, wherein: electric lock catches (7) unlocked through electric control are installed at four corners of the hanger (64), and the electric lock catches (7) are inserted into lock holes at four corners of the container (X) to be locked with the container (X) when the hanger (64) descends.

7. The road-rail intermodal transportation equipment as claimed in claim 6, wherein: the butt joint mode of the first crane track (11) and the second crane track (5) is a concave-convex butt joint mode, the end of the first crane track (11) is formed into a convex joint (12), and the end of the second crane track (5) is formed into a concave interface (51) matched with the convex joint (12) of the first crane track (11).

8. The road-rail intermodal transportation equipment as set forth in claim 7, wherein: the lifting oil cylinder and the supporting oil cylinder are an integrated bidirectional working oil cylinder (8).

Technical Field

The invention relates to the technical field of cargo handling and transportation, in particular to a combined transportation device applied to road and railway combined transportation, and specifically relates to a highway and railway combined transportation device.

Background

The highway-railway combined transportation is a combined transportation mode that cargoes are loaded by containers, the cargoes are transported in a long distance by using the characteristic of large railway transportation capacity and energy conservation, and automobiles are used for flexibly and conveniently serving a branching short-distance door to a door. The gantry crane container stacking and transferring has the characteristics that the stacking amount is large, but the container transferring is slow, and the container transferring is required to be fast in highway and railway combined transportation, so that the respective advantages of highway transportation and railway transportation can be reflected in the combined transportation.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a highway-railway combined transport device which can improve the efficiency of land transportation and accelerate the turnover of containers in view of the current situation of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a highway-railway combined transport device comprises a crane rail frame and a container crane, wherein the crane rail frame spans across a train rail and is arranged on a container transfer platform of a railway station, and the container crane consists of a traction automobile and a container hanger arranged on the traction automobile; the container hanger comprises a fixed frame welded and fixed on a traction automobile carriage and a lifting frame capable of moving up and down along the fixed frame; a first crane rail is laid above the crane rail frame, and a second crane rail which is used for realizing butt joint with the first crane rail after the crane ascends is arranged at the top end of the crane; the second crane track is butted with the first crane track to form a complete crane runway; the second crane rail is provided with a crane device for lifting the container, and the crane device walks back and forth along the second crane rail and the first crane rail to directly lift the container on the train to the container automobile or directly lift the container on the container automobile to the train or directly lift the container on one train to the other train.

In order to optimize the technical scheme, the specific measures adopted further comprise:

the fixing frame comprises four upright posts which are welded at the edge of the carriage in a rectangular layout, and reinforcing cross beams are connected between the upright posts at the two sides of the carriage; the one side shaping towards the outside on the stand has the direction spout that is used for providing the direction for reciprocating of crane.

The lifting frame is composed of four lifting columns, the four lifting columns are slidably arranged in the guide sliding grooves of the corresponding upright columns, the lower parts of the upright columns are provided with lifting oil cylinders used for pushing the lifting columns to lift up and down, and lifting rods of the lifting oil cylinders are connected with the bottom ends of the lifting columns.

Each upright post is provided with a support rod component which is used for being firmly contacted with the ground when the container crane works and plays a role of main support; the support rod assembly comprises a support rod connected with a conical fixed point support on the container transfer platform and a support oil cylinder used for pushing the support rod to move downwards.

The crane device consists of a crane main beam, a travelling wheel, a crane and a hanger; the main beam of the crane is an I-shaped beam consisting of two transverse beams and a vertical beam, and the travelling wheel is arranged below the transverse beams and is in rolling contact with the second crane track; the crane is movably arranged on the vertical beam, the hanger is hoisted on a suspender of the crane, and the hanger is matched with the hoisting of the container.

The four corners of the hanger are provided with electric locks which are unlocked through electric control, and the electric locks are inserted into the lock holes at the four corners of the container when the hanger descends and are connected with the container.

The butt joint mode of the first crane track and the second crane track is a concave-convex butt joint mode, a convex joint is formed at the end of the first crane track, and a concave interface matched with the convex joint of the first crane track is formed at the end of the second crane track.

The lifting oil cylinder and the supporting oil cylinder are integrated into a whole.

Compared with the prior art, the highway-railway combined transport equipment mainly comprises a crane rail frame and a container crane, wherein the crane rail frame is erected on a container transfer platform of a railway station across a train rail, the container crane comprises a traction automobile and a container hanger arranged on the traction automobile, and a crane device is arranged on the container hanger, so that a container on the train can be quickly lifted to the container automobile or directly lifted to the train or a container on one train is directly lifted to another train by using the crane device of the container crane.

The container transfer device can enable the second crane track and the first crane track to be in butt joint to form a complete crane runway, and then utilize a crane device on the container crane to walk on the crane runway, so that the container can be transferred quickly, the container transfer speed is increased, and the land transportation efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the layout structure of the present invention;

FIG. 2 is a side schematic view of the container crane of the present invention with a container suspended therefrom;

fig. 3 is a schematic rear view of the container crane of the present invention;

FIG. 4 is a schematic view of the second crane rail of the present invention in abutting engagement with the first crane rail;

FIG. 5 is a schematic view of the construction of the main beam of the crane of the present invention;

fig. 6 is a schematic view of the assembly of the lifting column and the column guide runner.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

Fig. 1 to 6 are structural illustrations of the present invention.

Wherein the reference numerals are: the container crane comprises a container crane D, a train track G, a container hanger J, a container transfer platform T, a container X, a crane track frame 1, a first crane track 11, a male joint 12, a tractor 2, a planker 21, a fixing frame 3, a stand column 31, a guide chute 31a, a reinforcing cross beam 32, a lifting frame 4, a lifting column 41, a support rod 42, a second crane track 5, a female joint 51, a crane main beam 61, a transverse beam 611, a vertical beam 612, a travelling wheel 62, a crane 63, a hanger 64, an electric lock catch 7, a bidirectional working oil cylinder 8 and a container vehicle 9.

The highway-railway combined transportation is a combined transportation mode that goods are loaded by containers, the railway large-traffic energy-saving characteristic is utilized for long-distance transportation of a main line, and then automobiles flexibly and conveniently serve for junction short-distance door-to-door service. In order to enable the container car 9 to pull the loaded container X from the factory to the train yard and quickly transfer it to the train, or to enable the container X to be quickly transferred from one train to another in a railway transit, or to quickly transfer the container X on the train to the container car 9 and then to be pulled by the container car 9 to the factory for unloading. The invention discloses a highway-railway combined transportation device suitable for highway-railway combined transportation, which can enable a container X to fully exert the advantages of highway-railway combined transportation in the highway-railway combined transportation, improve the efficiency of land transportation and accelerate the turnover of the container X.

The invention relates to a highway-railway combined transportation device which mainly comprises a crane rail frame 1 and a container crane D. As shown in fig. 1, a crane rail frame 1 is fixed on a container transfer platform T of a train station, and the crane rail frame 1 crosses a train rail G. The crane rail frame 1 is composed of a first crane rail 11 and a crane rail support frame. The crane rail support frame is fixed on the ground for supporting the first crane rail 11, and the first crane rail 11 is erected on two or more crane rail support frames. As shown in fig. 2 and 3, the container crane D is composed of a tractor 2 and a container hanger J mounted on a carriage 21 of the tractor 2. Thus, the container crane D can freely walk on the container turnover platform T of the railway station with the container hanger J. The container hanger J comprises a fixed frame 3 welded and fixed on a dragging plate 21 of a tractor 2 and a lifting frame 4 capable of moving up and down along the fixed frame 3. The second crane track 5 capable of synchronously lifting along with the lifting frame 4 is installed at the top end of the lifting frame 4, when the container crane D accurately drives the crane track frame 1, the lifting frame 4 can push the second crane track 5 to synchronously lift, so that the second crane track 5 and the first crane track 11 are perfectly butted, and the second crane track 5 and the first crane track 11 also form a complete crane runway after the second crane track 5 and the first crane track 11 are butted. A crane device for lifting a container X is provided on a second crane rail 5 of a container crane D. When the second crane rail 5 and the first crane rail 11 are butted, the crane device can travel back and forth on the second crane rail 5 and the first crane rail 11, that is, the crane device can travel back and forth on the crane runway. The container crane D is adopted to hoist the container X flexibly and conveniently, and the problem of high cost caused by the fact that a crane device is required to be installed on each crane track frame 1 is solved. In the embodiment, as shown in the upper two side-by-side position in fig. 1, the container car 9 stops at the left side or the right side of the container crane D, and at this time, the container crane D can directly hoist the container X on the train to the stopped container car 9 by using the crane device provided by the container crane D, or directly hoist the container X on the container car 9 to the train by using the crane device. It is of course also possible, as shown in the lower single car in fig. 1, to hoist the container crane D with the container X directly on one train to another train with its associated crane means.

In the embodiment, the fixing frame 3 of the present invention includes four upright posts 31 welded at the edge of the carriage 21, the four upright posts 31 are distributed on the carriage 21 in a rectangular shape, and in order to prevent the two upright posts 31 at the width positions from being too wide, the edges at the two sides of the carriage 21 may be provided with notches for installing the upright posts 31. In order to enhance the firmness of the upright columns 31, a reinforcing beam 32 or a diagonal bracing beam is welded between the upright columns 31 at two sides of the carriage 21, namely between the two upright columns 31 on the width. A guide chute 31a for guiding the vertical movement of the crane 4 is formed on the outward surface of the column 31. The guide chute 31a can ensure the lifting stability of the lifting frame 4.

In the embodiment, the crane 4 of the present invention is composed of four lifting columns 41. Four lifting columns 41 are slidably provided in the guide chutes 31a of the respective uprights 31 so that the lifting columns 41 can be smoothly moved up and down along the guide of the uprights 31. The lower part of the upright column 31 is provided with a lifting cylinder for pushing the lifting column 41 to lift up and down, and a lifting rod of the lifting cylinder is connected with the bottom end of the lifting column 41. The lifting frame 4 is driven by the lifting oil cylinder to lift, and other modes in the prior art can be adopted to drive the lifting frame 4 to lift. Such as by using a motor and a rack.

In the embodiment, in order to prevent the weight from pressing on the wheels of the tractor 2 during the lifting of the container X, each of the columns 31 of the present invention is provided with a support rod assembly for supporting the container crane D in a main supporting manner by being in firm contact with the ground during the operation of the container crane D. The support rod assembly comprises a support rod 42 connected with a conical fixed point support on the container turnover platform and a support oil cylinder used for pushing the support rod 42 to move downwards.

In the embodiment, the crane device of the invention is composed of a crane main beam 61, a road wheel 62, a crane 63 and a hanger 64. As shown in fig. 5, the main beam 61 of the crane is an i-beam consisting of two transverse beams 611 and a vertical beam 612, the traveling wheels 62 are installed under the transverse beams 611 and driven by the traveling motor to drive the whole main beam 61 of the crane to travel, and the traveling wheels 62 are in rolling contact with the second crane track 5. The crane 63 is arranged on the vertical beam 612 and can move along the vertical beam 612 by a proper amount so as to adjust the lifting position of the crane 63. The hanger 64 is hung on a boom of the crane 63 and can move up and down under the driving of the crane 63, and the hanger 64 is used for connecting with the container X so as to hoist the container X.

In order to realize automatic locking and unlocking of the hanger 64 and the container X, the electric lock catches 7 are arranged at the four corners of the hanger 64, and the electric lock catches 7 can be unlocked through electric control. When the hanger 64 is lowered by the pushing of the crane 63, the electric latches 7 at the four corners of the hanger 64 can be inserted into the locking holes at the four corners of the container X, thereby locking with the container X. The electric lock catch 7 is provided with an anti-falling buckle which is opened under the tension of the tension spring in a lever type, and the anti-falling buckle can be clamped in a lock hole of the container X to prevent the electric lock catch 7 from falling off. At this time, only if the electric push rod arranged in the electric lock catch 7 pushes the anti-falling buckle to overcome the tension of the tension spring to enable the anti-falling buckle to relatively rotate around the lever shaft, the electric lock catch 7 can be separated from the lock hole of the container X, and unlocking is achieved.

In the embodiment, as shown in fig. 4, the first crane rail 11 and the second crane rail 5 are butted in a male-female manner, the end of the first crane rail 11 is formed with a male joint 12 protruding outwards, and the end of the second crane rail 5 is formed with a female joint 51 matching with the male joint 12 of the first crane rail 11.

The invention relates to a bidirectional working oil cylinder 8 with an integrated lifting oil cylinder and a supporting oil cylinder. The integrated bidirectional working oil cylinder 8 has a simple structure and is convenient to use. Of course, the support bar assembly of the present invention may also employ support mechanisms used on conventional cranes. The support rod assembly is designed to play a main supporting role when the container crane D works by using the support rod assembly so as to prevent the tire of the container crane D from being crushed during hoisting.

As shown in FIG. 1, the application method of the invention is as follows:

1) and lifting the container X on the container automobile 9 to the train: the container car 9 transports the container X with good cargo from the factory to the container transfer platform T, and stops under the crane rail frame 1, and then the container crane D is driven under the crane rail frame 1. Then, the container crane D pushes the support rod 42 to move downwards by using the support cylinder to be in supporting connection with the conical fixed point on the container transfer platform, so that the tire of the container crane D is separated from the ground, and then the lifting frame 4 is pushed to move upwards by using the lifting cylinder, so that the second crane track 5 on the lifting frame 4 is perfectly butted with the first crane track 11 on the crane track frame 1 to form a complete crane runway. The crane device then travels along the crane runway to the upper side of the container car 9, lifts the container X on the container car 9, and then travels along the crane runway to directly lift the lifted container X to the train stopped on the train track G.

2) And lifting the container X on the train to the container automobile 9: after the train with the container X stops on the train track G at the container transfer platform T, the container automobile 9 is driven under the crane track frame 1, and the container crane D is driven under the crane track frame 1. Then, the container crane D pushes the support rod 42 to move downwards by using the support cylinder to be in supporting connection with the conical fixed point on the container transfer platform, so that the tire of the container crane D is separated from the ground, and then the lifting frame 4 is pushed to move upwards by using the lifting cylinder, so that the second crane track 5 on the lifting frame 4 is perfectly butted with the first crane track 11 on the crane track frame 1 to form a complete crane runway. The crane device then travels to the train upper side along the crane runway, lifts the container X on the train, then travels along the crane runway to directly lift and transport the lifted container X to the stopped container automobile 9, and then the container automobile 9 transports the container X to the required factory.

3) And lifting the container X on one train to the other train: when a transfer is required, a train with a container X and an empty train stop on the train track G at the container transfer platform T. Then, the container crane D is driven to move down to the position below the crane rail frame 1 (as shown in fig. 1 where the crane stops), the container crane D drives the support rod 42 to move down to be in supporting connection with the tapered fixed point on the container transfer platform, so that the tire of the container crane D is separated from the ground, and then the lifting cylinder drives the lifting frame 4 to move up, so that the second crane rail 5 on the lifting frame 4 is perfectly butted with the first crane rail 11 on the crane rail frame 1 to form a complete crane runway. The crane device then travels along the crane runway to the position above the train with the container X, and then the container X on the train is lifted and directly hoisted to the empty train.

While the preferred embodiments of the present invention have been illustrated, various changes and modifications may be made by one skilled in the art without departing from the scope of the invention.