CN111452811B - Dual-purpose concave bottom transport vehicle for automobile and container - Google Patents

Abstract

The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which belongs to the technical field of railway transportation and comprises a lower underframe, a middle underframe lifting device and an end underframe lifting device; the middle underframe lifting device comprises a middle upper underframe, a middle upper underframe lifting device and a middle upper locking device; the middle upper underframe lifting device is used for controlling the middle upper underframe to vertically lift; the middle upper frame locking device is used for locking the middle upper layer underframe in height; the end underframe lifting device comprises an end upper underframe and an end upper frame control device; the end upper frame control device is used for controlling the lifting, locking and overturning of the end upper layer underframe. The dual-purpose concave bottom transport vehicle for the automobile and the container can effectively improve the utilization rate of the whole length of the underframe of the vehicle, reduce the transport cost, avoid the collision of the container, and has the advantages of exquisite structure and convenient operation.

Description

Dual-purpose concave bottom transport vehicle for automobile and container

Technical Field

The invention belongs to the technical field of railway transportation, and particularly relates to a dual-purpose concave bottom transport vehicle for an automobile and a container.

Background

In recent years, the development of the car industry in China is rapid, the traffic volume of cars is increased year by year, and various freight transportation companies and logistics companies are used for adapting to the demands of the car transportation market and highlighting the advantages in strong market competition so as to obtain more market share and strive for low transportation cost and high transportation efficiency.

The domestic railway car transport vehicle is vigorously developed in the strong growth of car consumer markets, and due to the adoption of an all-steel closed rivet welding structure, other cargoes cannot be assembled, so that most of vehicles can only be returned by empty vehicles, and the vehicles can only be idle and occupy lines in off-season, so that the vehicle utilization rate is low, the use cost is increased, and the transport capacity of railway lines is greatly wasted. In recent years, the development of multi-type intermodal is greatly promoted in the country, and the multi-type intermodal mainly uses container transportation, and if the two types of intermodal can be complemented, the maximization of equipment benefit can be realized. Patent publication number CN 104802811A discloses a car-container sharing special transport vechicle, and this car turns over downwards through middle part activity chassis, only can be used to load 140 ft containers, and vehicle chassis length utilization ratio is 50% lower than the flatcar, and economic benefits is not high, and this car side wall is higher, and difficult observation when container loads, easily crashes side wall or container, difficult operation is unfavorable for the popularization and application of dual-purpose car.

The existing car of railway transport vechicle's vehicle structure restriction can't carry out high-efficient dual-purpose in the transportation, and the operation is inconvenient, and this problem needs to be solved urgently.

Disclosure of Invention

The invention aims to provide the dual-purpose concave bottom transport vehicle for the automobile and the container, aiming at solving the problems that the existing railway car transport vehicle cannot transport the container in full length under the chassis, the container is easy to collide, the operation is inconvenient, the transport capacity of the vehicle is low, the transport cost is high and the like. In order to achieve the above purpose, the present invention provides the following technical solutions:

A dual-purpose concave bottom transport vehicle for an automobile and a container comprises a lower underframe, a middle underframe lifting device and an end underframe lifting device; the middle part of the lower underframe is provided with a concave bottom, two ends of the lower underframe are provided with high bottoms, and the concave bottom is connected with the high bottoms through inclined bottoms; the middle underframe lifting device comprises a middle upper underframe, a middle upper underframe lifting device and an upper underframe locking device; an upper frame lifting device is arranged between the concave bottom and the middle upper layer underframe; the middle upper underframe lifting device is used for controlling the middle upper underframe to vertically lift; the number of the middle upper underframe locking devices is at least four, and the locking devices are uniformly distributed on two sides of the middle upper underframe; the middle upper underframe locking device is used for locking the height of the middle upper underframe; the end underframe lifting device comprises an end upper underframe and an end upper frame control device; the end upper underframe corresponds to a high bottom, four end upper frame control devices are arranged between the high bottom and the end upper underframe, and a pair of end upper frame control devices are symmetrically arranged at the front and back positions of the end upper underframe; the end upper frame control device comprises an end upper frame lifting device, a multi-stage telescopic sleeve and an end upper frame rotating device; the end upper frame lifting device is used for controlling the lifting of the end upper layer underframe; an end upper frame lifting device is arranged in the multi-stage telescopic sleeve; the multistage telescopic sleeve is used for locking the length of the overhead lifting device; the end upper frame rotating device is used for driving the multistage telescopic sleeve to turn over along the length direction of the lower-layer underframe. According to the structure, the middle part of the lower underframe is provided with the concave bottom, the two ends of the lower underframe are provided with the high bottoms, and the concave bottom and the high bottoms are connected through the inclined bottoms; when the middle upper underframe above the concave bottom is driven by the upper underframe lifting device to rise by a certain height and the four upper underframe lifting devices control the end upper underframe to rise, the large SUV cars to be transported pass through the high bottom and the inclined bottom to the concave bottom, and some higher large SUV cars can be parked on the concave bottom, so that the space accommodating capacity of the transport vehicle is improved by the concave bottom; after the ascending height of the middle upper underframe is determined, the middle upper underframe is locked by the middle upper locking device, so that the pressure of the automobile parked on the middle upper underframe is avoided when the middle upper lifting device does not work. When the middle upper underframe is driven to descend by the middle upper underframe lifting device, the middle upper underframe can be finally supported on the lower underframe; the middle upper frame lifting device is always positioned between the concave bottom and the middle upper layer underframe. The upper end underframe corresponds to a high bottom, so that a large SUV needs to pass through the high bottom and park a car on the high bottom, the angle of the upper end underframe needs to be adjusted, and the space below the upper end underframe is ensured. The angle of the end upper underframe is controlled and adjusted by four end upper frame lifting devices, and the two sides of the front position and the two sides of the rear position of the end upper underframe are symmetrically provided with the end upper frame lifting devices. The upper underframe at the end part rises in three states, namely a horizontal working position state, a middle working position state and a full-open working position state, can be mixed with the existing main stream car transport vehicle, improves the applicability of the vehicle, and has higher tilting of the outer end of the upper underframe at the end part compared with the middle working position state; the full-open working position state is used for enabling the large SUV to open to the concave bottom, the middle working position state is used for parking some cars slightly higher on the high bottom, and the four end upper frame lifting devices can conveniently adjust the angle of the end upper frame and the height of the end upper frame. After the end upper frame lifting device ascends to the height of the end upper frame, if the end upper frame is borne, the end upper frame lifting device is adversely affected by long-term loading, so that the length of the end upper frame lifting device needs to be locked by the multi-stage telescopic sleeve, namely the multi-stage telescopic sleeve is needed to support the end upper frame. Because multistage telescopic tube and end upper frame elevating gear always have a section length, make the unable vertical whereabouts of tip upper frame chassis on the lower floor chassis, so need end upper frame rotary device be used for driving multistage telescopic tube along lower floor chassis length direction upset, the tip upper frame chassis just can support on the lower floor chassis after shifting along length direction like this. This transport vechicle not only can double-deck transportation car, after the tip upper strata chassis supports on the lower floor chassis and middle part upper strata chassis supports on the lower floor chassis, can park big truck or container on tip upper strata chassis and the middle part upper strata chassis, makes the transport vechicle can transport other goods, avoids the empty wagon to send back. The off-season vehicles are not idle and cannot occupy the railway, so that the vehicle utilization rate is high, the use cost is reduced, and the transportation capacity of the railway is greatly improved. Because the transport vehicle has no roof and no side wall, the container can not collide when being loaded, and the container can be transported by the whole length of the underframe, thereby improving the transport capacity and the transport efficiency of the transport vehicle. Solves the problems of strong special purpose, low utilization rate and high use cost of the existing railway transportation car. No obstacle is arranged on the bottom frame at the upper layer of the end part and the bottom frame at the upper layer of the middle part to prevent the loading of the container, and the multi-type intermodal transportation device has the advantages of multi-type intermodal transportation capability, high transportation efficiency and low transportation cost. The concave bottom is a concave part arranged in the middle of the lower underframe and comprises a concave bottom surface and two side walls connected with the bottom surface. The end upper underframe adopts a plate girder type structure. The middle upper underframe adopts a plate girder type structure. The number of the middle upper underframe locking devices is at least four, and the locking devices are uniformly distributed on two sides of the middle upper underframe; for example, two middle upper frame locking devices are respectively arranged on one side of the middle upper frame, and the middle upper frame locking devices on the two sides are symmetrically arranged, so that the height of the middle upper frame is stably locked.

Further, the upper frame locking device comprises a supporting rod, a sliding piece, a locking piece and a guide rail; one end of the supporting rod is hinged to one side of the lower underframe, and the other end of the supporting rod is provided with a sliding piece; the sliding piece is used for being matched with a guide rail arranged below the middle upper underframe and sliding along the width direction of the middle upper underframe; the locking piece is used for locking one end of the support rod provided with the sliding piece and the middle upper underframe when the sliding piece slides to the edge of the middle upper underframe. The structure of the upper frame locking device is simple, the use is convenient, and the reliability is good; the upper frame locking device comprises a supporting rod, a sliding piece, a locking piece and a guide rail; one end of the supporting rod is hinged to one side of the lower underframe, and the other end of the supporting rod is provided with a sliding piece; the sliding piece is used for being matched with a guide rail arranged below the middle upper-layer underframe and sliding along the width direction of the middle upper-layer underframe, and the guide rail is arranged along the width direction of the middle upper-layer underframe; so when well frame elevating gear drove middle part upper underframe and rise, the slider is used for cooperating the guide rail that sets up in middle part upper underframe below to slide to middle part upper underframe edge along middle part upper underframe width direction, then the locking piece locks the one end that the bracing piece was equipped with the slider and middle part upper underframe, and then the slider can not remove, and well frame locking device locks the high stability of middle part upper underframe. When the locking piece is not locked, the middle upper underframe is driven by the middle upper underframe to descend by the middle upper lifting device, the sliding piece is matched with a guide rail arranged below the middle upper underframe and slides to the middle of the middle upper underframe along the width direction of the middle upper underframe, and finally the middle upper underframe is supported on the lower underframe.

Further, the number of the upper lifting devices is at least four, and the upper lifting devices are uniformly distributed on two sides of the middle upper underframe; the middle frame lifting device is a telescopic cylinder or a telescopic hydraulic cylinder; the cylinder barrel of the middle frame lifting device is fixed with the lower bottom frame and is used for ensuring that the telescopic direction is vertical; the telescopic end part of the middle upper frame lifting device is hinged with the middle upper layer underframe, and the end part of the cylinder barrel is hinged with the concave bottom. According to the structure, for example, the number of the upper frame lifting devices can be four, two upper frame lifting devices on one side of the middle upper frame are symmetrically arranged on two sides of the middle upper frame, and the middle upper frame is stably lifted or lowered by the upper frame lifting devices. The middle-upper frame lifting device can be used as a telescopic cylinder or a telescopic hydraulic cylinder, so that the control is simple, in addition, because the middle-upper frame locking device locks the middle-upper-layer underframe in height, the pressure of an automobile parked on the middle-upper-layer underframe when the middle-upper frame lifting device does not work is avoided, the telescopic cylinder or the telescopic hydraulic cylinder is protected, and the telescopic cylinder or the telescopic hydraulic cylinder with large specification is not required to be equipped for lifting force, because the required lifting force is smaller, and the cost is saved. The telescopic cylinder or telescopic hydraulic cylinder always has a length, and the concave bottom provides such accommodation space. The concave bottom is a concave part arranged in the middle of the lower underframe and comprises a concave bottom surface and two side walls connected with the bottom surface. The middle upper frame lifting device can also adopt other existing lifting structures matched with gears and racks, the middle upper frame lifting device can adopt a telescopic cylinder or a telescopic hydraulic cylinder, and the stroke of the multi-stage telescopic cylinder can be utilized, so that the middle upper frame lifting device drives the middle upper frame to descend to the lower frame, and the loading requirement of the 1AAA wide high box is met. The cylinder barrel of the middle upper frame lifting device is fixed with the lower bottom frame and used for ensuring that the telescopic direction is vertical, so that the middle upper bottom frame can stably and vertically ascend or descend; because the middle upper frame lifting device is a telescopic cylinder or a telescopic hydraulic cylinder, the middle upper frame lifting device is provided with a telescopic end part and a cylinder end part, the telescopic end part of the middle upper frame lifting device is hinged with the middle upper layer underframe, the cylinder end part is hinged with the concave bottom, and the middle upper frame lifting device can drive the middle upper layer underframe to lift.

Further, the sliding piece is a cylindrical sliding block and is fixed at one end of the supporting rod; the guide rail is a guide plate with a chute; the sliding groove extends along the width direction of the middle upper underframe; the cylindrical sliding block penetrates through the sliding groove. According to the structure, the sliding piece can be a cylindrical sliding block, for example, the sliding piece is welded at one end of the supporting rod, and the guide rail is a guide plate with a sliding groove; the sliding groove extends along the width direction of the middle upper underframe; the cylindrical sliding block penetrates through the sliding groove, and when the middle upper-layer underframe is lifted, the cylindrical sliding block can move along the width direction of the middle upper-layer underframe, so that the structure is simple and reliable, and the manufacturing cost is low.

Further, the locking piece comprises a first hole lug arranged on one side of the middle upper underframe, a second hole lug arranged at one end of the supporting rod with the sliding piece and a locking pin; when the sliding piece slides to the edge of the middle upper underframe, the through holes of the first hole lug and the second Kong Er are aligned, so that the lock pin can be inserted into the through holes of the first hole lug and the second Kong Er, and one end of the supporting rod provided with the sliding piece is locked with the middle upper underframe. According to the structure, when the middle upper underframe is stably lifted by the upper lifting device, the sliding piece slides to the edge of the middle upper underframe, the through holes of the first hole lug and the second Kong Er are aligned, the lock pin can be inserted into the through holes of the first hole lug and the second Kong Er, at the moment, the sliding piece cannot move, one end of the supporting rod provided with the sliding piece is locked with the middle upper underframe, namely the upper locking device locks the height of the middle upper underframe stably. The locking pin may be a spring bolt or a self locking pin. The middle upper underframe is supported by the support rod, so that the upper underframe lifting device is prevented from being pressed when bearing.

Further, the middle upper underframe is provided with a strip hole arranged along the width direction; the elongated hole is used for avoiding interference between the second Kong Er and the middle upper-layer underframe in the sliding process of the sliding piece. According to the structure, the second hole lug can interfere with the bottom frame at the upper layer of the middle part along with the sliding process of the sliding part, so that the strip hole is arranged to avoid the second Kong Er; the second hole lug can extend into the strip hole in the moving process.

Further, the middle underframe lifting device further comprises an upper frame reinforcing device which is in one-to-one correspondence with the number of the upper frame locking devices; the middle frame reinforcing device comprises two reinforcing rods; one end of each reinforcing rod is hinged to two sides of the supporting rod, and the other end of each reinforcing rod is hinged to a rotating seat arranged on the lower-layer underframe, so that the two reinforcing rods can overturn along the width direction of the middle-upper-layer underframe along with the supporting rod and can avoid the supporting rod from overturning along the length direction of the middle-upper-layer underframe. As can be seen from the above structure, each middle frame locking device is provided with a middle frame reinforcing device, and the middle frame reinforcing device comprises two reinforcing rods; the reinforcing rod one end articulates in bracing piece one side, and the other end articulates on establishing the rotation seat at the lower floor chassis, rotates seat and lower floor chassis and articulates, and two reinforcing rods set up about the bracing piece symmetry, and two reinforcing rods can be along the bracing piece upset of middle part upper strata chassis width direction and avoid the bracing piece to overturn along middle part upper strata chassis length direction, and when the transport vechicle longitudinal shock, the bracing piece receives the power along middle part upper strata chassis length direction upset, and two reinforcing rods have improved the stability of bracing piece.

Further, the multistage telescopic sleeve comprises a plurality of support sleeves which are nested in sequence from inside to outside; the support sleeve is provided with a plurality of matching holes along the length direction of the support sleeve; the matching hole is used for inserting a lock pin to lock the length of the multi-stage telescopic sleeve; the upper end of the end upper frame lifting device and the upper end of the innermost support sleeve of the multi-stage telescopic sleeve are hinged with an upper hinging seat together, and the lower end of the end upper frame lifting device and the lower end of the outermost support sleeve of the multi-stage telescopic sleeve are hinged with a lower hinging seat together; the upper hinging seat is fixed on one side of the end part upper layer underframe, and the lower hinging seat is fixed on one side of the lower layer underframe; the end upper frame rotating device is used for driving the support sleeve at the outermost part of the multistage telescopic sleeve to turn over along the length direction of the lower-layer underframe. According to the structure, the multistage telescopic sleeve comprises a plurality of support sleeves which are nested in sequence from inside to outside, and if three stages are adopted, the multistage telescopic sleeve comprises an outer support sleeve, a middle support sleeve and an inner support sleeve which are nested in sequence from outside to inside, and each support sleeve is provided with a plurality of matching holes along the length direction of the support sleeve; the inner side of the top of each support sleeve and the outer side of the bottom of each support sleeve are provided with limiting parts, so that when the length of the support sleeve positioned in the interior is insufficient along with the ascending of the bottom frame of the upper layer of the end part, the support sleeve positioned in the interior can be pulled to move upwards, the length of the multistage telescopic sleeve is finally adjustable, and when the multistage telescopic sleeve is required to be locked, a lock pin is only required to be inserted into a corresponding aligned matching hole to lock the length of the multistage telescopic sleeve, namely, the support sleeves cannot move mutually; the locking pin may be a self-locking pin.

Further, the end upper frame rotating device is a telescopic cylinder or a telescopic hydraulic cylinder; the telescopic end part of the upper end frame rotating device is hinged with a support sleeve at the outermost part of the multi-stage telescopic sleeve, and the end part of the cylinder barrel is hinged with one side of the lower bottom frame; the end upper frame lifting device is a telescopic cylinder or a telescopic hydraulic cylinder; the end-on-shelf control device further comprises a stabilizing rod; one end of the stabilizing rod is hinged with the lower underframe, and the other end of the stabilizing rod is detachably connected with a third hole lug arranged on a support sleeve at the outermost part of the multistage telescopic sleeve; the stabilizing rod is used for enclosing a stabilizing triangle with the support sleeve at the outermost part of the multi-stage telescopic sleeve and the underframe at the lower layer; one end of the end upper layer underframe is hinged with a cab apron, and the other end of the end upper layer underframe is hinged with an end upper layer auxiliary underframe; the end upper layer auxiliary underframe is used for connecting the middle upper layer underframe arranged above the concave bottom when the end upper layer underframe is in a rising state, and can be downwards turned and stored below the middle upper layer underframe when the end upper layer underframe is in a descending state. According to the structure, the end upper frame rotating device is a telescopic cylinder or a telescopic hydraulic cylinder, the control is simple, the multistage telescopic sleeve and the end upper frame lifting device are controlled to rotate through telescopic operation, and the end upper frame can be supported on the lower frame after being deviated along the length direction. The end bracket rotating device can also be a power mechanism matched with other gears and racks. The lifting device of the end upper frame is a telescopic cylinder or a telescopic hydraulic cylinder, is simple to control, controls the height and the angle of the bottom frame of the upper layer of the end part through telescopic operation, and is convenient to be arranged in the multistage telescopic sleeve. The lifting device of the upper end frame can also be a power mechanism matched with other gears and racks. Because the multi-stage telescopic sleeve can be overturned, after the positions of the multi-stage telescopic sleeve are determined, the locking is needed, and the end rack rotating device is prevented from being in a working state all the time; the stabilizing rod can be a pull rod with an adaptive length or an adjustable telescopic threaded rod, and is simple in structure and low in manufacturing cost. One end of the stabilizing rod is hinged with the lower underframe, and the other end of the stabilizing rod can be connected with a third hole lug arranged on the support sleeve at the outermost part of the multistage telescopic sleeve through a lock pin, namely the lock pin is inserted into a through hole of the third hole lug and a through hole corresponding to the stabilizing rod at the end; the stabilizing rod is used for enclosing a stabilizing triangle with the support sleeve and the lower underframe at the outermost part of the multi-stage telescopic sleeve. When the multistage telescopic sleeve needs to rotate, the lock pin is pulled out. The ferry plate adopts the existing movable ferry plate, so that the ferry plate is used for conveniently loading and unloading cargoes to a transport vehicle. The other end of the end upper layer underframe is hinged with an end upper layer auxiliary underframe, and the end upper layer auxiliary underframe is used for connecting a middle upper layer underframe arranged above the concave bottom when the end upper layer underframe is in a rising state. So in the ascending state, there is a space between the end upper underframe and the middle upper underframe, the end upper auxiliary underframe is used for compensating the space, and if the space is not available, the end upper underframe is deflected along the length direction and then is bumped on the middle upper underframe. When the auxiliary underframe at the end part is in a descending state, the auxiliary underframe at the upper layer can be downwards folded and stored below the underframe at the upper layer at the middle part. The middle upper underframe is connected with the middle upper underframe after the end upper underframe is descended after being deviated in the length direction. The end-on-shelf control device further comprises a transverse stabilizer bar; one end of the transverse stabilizer bar is connected with the underframe at the upper layer of the end part, and the other end of the transverse stabilizer bar is connected with the support sleeve at the outermost part of the multistage telescopic sleeve; the transverse stabilizer bar is used for forming a stable triangle with the multistage telescopic sleeve and the bottom frame at the upper layer of the end part; the stabilizer bar is detachable.

Further, the car coupler buffer device, the brake device and the bogie are also included; the car coupler buffer device, the brake device and the bogie are arranged on the lower underframe; the concave bottom of the lower underframe corresponds to two connected middle underframe lifting devices, and the high bottoms at the two ends respectively correspond to one end underframe lifting device; both sides of the bottom frame of the upper layer of the end part are provided with movable bars of the upper frame; the movable rail of the end upper frame can be locked at an upturning position and stored at a downturning position; the end upper underframe is of an arc-shaped structure, the middle part is high, and the two sides are low; the two sides of the middle upper underframe are provided with middle upper movable bars; the upper movable fence can be locked at the upturning position and stored at the downturning position; the middle upper underframe is provided with a container locking device; the lower underframe is also provided with a container locking device. According to the structure, when a person operates, the bottom frame at the upper layer of the end part is put at the upturned position to be locked, so that the protection effect is achieved; the end upper underframe is connected to one side of the end upper underframe through a hinge seat, so that the end upper underframe can be turned over, a matched through hole is drilled in the end upper underframe and the hinge seat, and a lock pin is inserted to lock the end upper underframe at an upturning position; when the end upper underframe is required to be stored in the downward turning position, the end upper underframe is turned to be stored in the approximately horizontal position, so that the container is prevented from being damaged when being loaded. When a person operates, the upper movable fence is put at the upturned position to lock, so that the protection function is realized; the middle upper frame movable fence is connected to one side of the middle upper layer underframe through a hinging seat, so that the middle upper frame movable fence can be turned over, a matched through hole is drilled on the middle upper frame movable fence and the hinging seat, and a lock pin is inserted to lock the middle upper frame movable fence at an upturned position; when the upper movable fence needs to be stored in the downward turning position, the upper movable fence is turned over to be stored in the approximately horizontal position, so that the container is prevented from being damaged when being loaded. The end upper underframe is of an arc-shaped structure, the middle part is high, and the two sides are low. Thus there is a large space between the upper floor and the end upper floor to accommodate the car, as the car is also high in the middle and low on both sides. Container locking devices are used to support and secure containers. For supporting and fastening containers. The coupler buffer device, the brake device and the bogie are the technology of the existing railway vehicle and are not repeated.

The beneficial effects of the invention are as follows:

1. The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which solves the defect that the existing vehicle can only transport a car, increases the transport function of the container with the whole chassis length, can be used for assembling other cargoes through the container, avoids the return of an empty vehicle, improves the utilization rate of the vehicle, reduces the transport cost for users and has obvious economic benefit. Can avoid container collision, the structure is exquisite, convenient operation.

2. The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which can meet the transportation of large vehicles and enrich the types of transport vehicles.

3. The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which not only realizes the automobile transport function, but also satisfies the container loading function of the whole chassis length, has the transport capacity equal to that of a flat vehicle, avoids the return transport of an empty vehicle and the idle in a slack season, improves the utilization rate of the vehicle, reduces the use cost and improves the transport capacity of railway lines.

4. The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which is convenient to operate, labor-saving, safe and reliable, and reduces the labor intensity of operators.

5. The invention discloses a dual-purpose concave bottom transport vehicle for an automobile and a container, which is provided with a horizontal position, a middle position and a full-open position, can be mixed with the existing main stream car transport vehicle, and improves the applicability of the vehicle.

Drawings

FIG. 1 is a schematic elevation view of a lifting device of a middle underframe, wherein a movable rail of the upper underframe is in an upturning locking position;

FIG. 2 is a left side view of the lifting device of the middle chassis of the invention, wherein the movable rail of the upper chassis is in an upturned locking position;

FIG. 3 is a schematic diagram of a front view structure of a lifting device of a middle underframe in a descending state, wherein a movable rail of an upper frame is positioned at a downward turning and containing position;

FIG. 4 is a left-hand structural schematic diagram of a descending state of a lifting device of a middle underframe, wherein a movable rail of an upper frame is positioned at a downward turning and containing position;

FIG. 5 is a schematic view of the overall structure of two middle chassis lifting devices of the present invention in combination with a lower chassis;

FIG. 6 is a schematic diagram of the overall axis of two middle chassis lifting devices of the present invention in combination with a lower chassis;

FIG. 7 is a partial schematic view of FIG. 6;

FIG. 8 is a schematic view of the axial structure of the middle upper chassis of the present invention;

FIG. 9 is a schematic view of the overall structure of the lower chassis of the present invention, with two middle chassis lifts engaged, and two end chassis lifts in a fully lowered condition;

FIG. 10 is a schematic view of the invention in a state of construction for use in a transportation vehicle;

FIG. 11 is a schematic view of the present invention in a state of construction for use in a large transportation truck;

FIG. 12 is a schematic view of the invention in a shipping container configuration;

Fig. 13 is a schematic diagram showing the elevation and lowering of the end chassis elevating device according to the present invention in a superimposed manner.

Fig. 14 is a schematic view showing the end chassis lifting device of the present invention in a raised horizontal operating position.

FIG. 15 is a left side schematic view of FIG. 14;

fig. 16 is a schematic view showing the end chassis lifting device of the present invention in a raised intermediate operating position.

Fig. 17 is a schematic view showing the end chassis lifting device in the state of the ascending and fully-opened working position.

FIG. 18 is a schematic view of the structure of the overhead control device of the present invention;

FIG. 19 is a schematic view of the overall structure of the present invention wherein the end upper auxiliary bottom frames illustrate the overlapping middle upper bottom frames and the turned down condition;

fig. 20 is a schematic view of the structure of the container locking device on the lower chassis of the present invention.

In the accompanying drawings: 1-lower floor chassis, 2-middle upper floor chassis, 3-upper floor lifting device, 4-upper floor locking device, 5-concave bottom, 6-supporting rod, 7-sliding piece, 8-locking piece, 9-guide rail, 10-sliding groove, 11-first hole lug, 12-second Kong Er, 13-long strip hole, 14-upper floor reinforcing device, 15-reinforcing rod, 16-rotating seat, 17-upper floor movable fence, 18-container locking device, 19-end upper floor chassis, 20-high bottom, 21-inclined bottom, 22-end upper floor lifting device, 23-multistage telescopic sleeve, 24-end upper floor rotating device, 25-supporting sleeve, 26-fitting hole, 27-upper hinging seat, 28-lower hinging seat, 29-stabilizing rod, 30-third hole lug, 31-end upper floor movable fence, 32-cab apron, 33-end upper auxiliary chassis, 34-buffering device, 35-braking device, 36-bogie, 37-outer supporting sleeve, 38-middle supporting sleeve and 39-inner supporting sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and the detailed description, but the present invention is not limited to the following examples.

Embodiment one:

See fig. 1-20. A dual-purpose concave bottom transport vehicle for an automobile and a container comprises a lower underframe 1, a middle underframe lifting device and an end underframe lifting device; the middle part of the lower underframe 1 is provided with a concave bottom 5, two ends of the lower underframe are provided with high bottoms 20, and the concave bottom 5 and the high bottoms 20 are connected through inclined bottoms 21; the middle underframe lifting device comprises a middle upper underframe 2, an upper underframe lifting device 3 and an upper underframe locking device 4; an upper lifting device 3 is arranged between the concave bottom 5 and the middle upper underframe 2; the middle upper underframe lifting device 3 is used for controlling the middle upper underframe 2 to vertically lift; the number of the middle upper underframe locking devices 4 is at least four, and the middle upper underframe locking devices are uniformly distributed on two sides of the middle upper underframe 2; the middle upper underframe locking device 4 is used for locking the height of the middle upper underframe 2; the end underframe lifting device comprises an end upper underframe 19 and an end upper frame control device; the end upper underframe 19 corresponds to a high bottom 20, four end upper frame control devices are arranged between the high bottom 20 and the end upper underframe 19, and a pair of end upper frame control devices are symmetrically arranged at the front and back positions of the end upper underframe 19; the end shelf control device comprises an end shelf lifting device 22, a multi-stage telescopic sleeve 23 and an end shelf rotating device 24; the upper frame lifting device 22 is used for controlling the lifting of the end upper layer bottom frame 19; a lifting device 22 for the upper frame is arranged in the multi-stage telescopic sleeve 23; the multi-stage telescopic sleeve 23 is used for locking the length of the overhead lifting device 22; the upper frame rotating device 24 is used for driving the multi-stage telescopic sleeve 23 to turn over along the length direction of the lower-layer underframe 1. As can be seen from the above structure, the lower underframe 1 is provided with a concave bottom 5 in the middle, and high bottoms 20 are arranged at two ends, and the concave bottom 5 and the high bottoms 20 are connected through an inclined bottom 21; when the middle upper underframe 2 above the concave bottom 5 is driven by the upper underframe lifting device 3 to rise by a certain height and the four upper underframe lifting devices 22 control the upper underframe 19 at the end to rise, the large SUV cars ready for transportation pass through the high bottom 20 and the inclined bottom 21 to the concave bottom 5, some higher large SUV cars can be parked on the concave bottom 5, and the concave bottom 5 improves the space accommodating capacity of the transport vehicle; after the ascending height of the middle upper underframe 2 is determined, the middle upper underframe 2 is locked by the middle upper locking device 4, so that the pressure of the automobile parked on the middle upper underframe 2 is avoided when the middle upper lifting device 3 does not work. When the middle upper underframe 2 is driven to descend by the middle upper underframe 3, the middle upper underframe 2 can be finally supported on the lower underframe 1; the middle upper frame lifting device 3 is always positioned between the concave bottom 5 and the middle upper layer underframe 2. The end upper underframe 19 corresponds to a high floor 20, so that the large SUV needs to adjust the angle of the end upper underframe 19 to ensure the space below the end upper underframe 19 to pass through the high floor 20 and park the car on the high floor 20. The angle of the end upper underframe 19 is controlled and adjusted by four end upper frame lifting devices 22, and the two sides of the front position and the two sides of the rear position of the end upper underframe 19 are symmetrically provided with the end upper frame lifting devices 22. The end upper underframe 19 has three states when ascending, namely a horizontal working position state, a middle working position state and a full-open working position state, can be mixed with the existing main stream car transport vehicle, improves the applicability of the vehicle, and has higher tilting of the outer end of the end upper underframe 19 compared with the middle working position state; the full open work position is to enable the large SUV to open to the pit bottom 5, and the middle work position is to park some slightly higher cars on the high bottom 20, and the four end upper frame lifting devices 22 can conveniently adjust the angle of the end upper frame 19 and the height of the end upper frame 19. After the end upper chassis 19 is lifted to a height by the end upper chassis 22, if the end upper chassis 19 is loaded, the end upper chassis 19 will be adversely affected by long-term loading of the end upper chassis 22, so that the end upper chassis 19 needs to be supported by the multi-stage telescopic sleeve 23 to lock the length of the end upper chassis 22, i.e. the multi-stage telescopic sleeve 23. Because the multi-stage telescopic sleeve 23 and the upper frame lifting device 22 have a certain length, the end upper frame 19 cannot vertically fall onto the lower frame 1, so that the upper frame rotating device 24 is required to drive the multi-stage telescopic sleeve 23 to turn over along the length direction of the lower frame 1, and the end upper frame 19 can be supported on the lower frame 1 after being offset along the length direction. This transport vechicle not only can double-deck transportation car, after tip upper strata chassis 19 supports on lower floor chassis 1 and middle part upper strata chassis 2 supports on lower floor chassis 1, can park big truck or container on tip upper strata chassis 19 and the middle part upper strata chassis 2, makes the transport vechicle can transport other goods, avoids the empty wagon to return. The off-season vehicles are not idle and cannot occupy the railway, so that the vehicle utilization rate is high, the use cost is reduced, and the transportation capacity of the railway is greatly improved. Because the transport vehicle has no roof and no side wall, the container can not collide when being loaded, and the container can be transported by the whole length of the underframe, thereby improving the transport capacity and the transport efficiency of the transport vehicle. Solves the problems of strong special purpose, low utilization rate and high use cost of the existing railway transportation car. No obstacle is present on the end upper underframe 19 and the middle upper underframe 2 all the time to obstruct the loading of the container, and the multi-type intermodal transportation capability is provided, so that the transportation efficiency is high and the transportation cost is low. The concave bottom 5 is a concave part in the middle of the lower underframe 1 and comprises a concave bottom surface and two side walls connected with the bottom surface. The end upper underframe 19 adopts a plate girder type structure. The middle upper underframe 2 adopts a plate girder type structure. The number of the middle upper underframe locking devices 4 is at least four, and the middle upper underframe locking devices are uniformly distributed on two sides of the middle upper underframe 2; for example, two middle upper frame locking devices 4 are arranged on one side of the middle upper frame 2, and the middle upper frame locking devices 4 on two sides are symmetrically arranged, so that the height of the middle upper frame 2 is stably locked.

Embodiment two:

See fig. 1-20. On the basis of the first embodiment, the upper frame locking device 4 comprises a supporting rod 6, a sliding piece 7, a locking piece 8 and a guide rail 9; one end of the supporting rod 6 is hinged to one side of the lower underframe 1, and the other end of the supporting rod is provided with a sliding piece 7; the sliding piece 7 is used for being matched with a guide rail 9 arranged below the middle upper underframe 2 and sliding along the width direction of the middle upper underframe 2; the locking piece 8 is used for locking one end of the support rod 6 provided with the sliding piece 7 and the middle upper underframe 2 when the sliding piece 7 slides to the edge of the middle upper underframe 2. The structure shows that the upper frame locking device 4 has simple structure, convenient use and good reliability; the upper frame locking device 4 comprises a supporting rod 6, a sliding piece 7, a locking piece 8 and a guide rail 9; one end of the supporting rod 6 is hinged to one side of the lower underframe 1, and the other end of the supporting rod is provided with a sliding piece 7; the sliding piece 7 is used for being matched with a guide rail 9 arranged below the middle upper underframe 2 and sliding along the width direction of the middle upper underframe 2, and the guide rail 9 is arranged along the width direction of the middle upper underframe 2; so when the middle upper chassis 2 is driven to rise by the middle upper lifting device 3, the sliding member 7 is used for matching with the guide rail 9 arranged below the middle upper chassis 2 and sliding to the edge of the middle upper chassis 2 along the width direction of the middle upper chassis 2, then the locking member 8 locks one end of the supporting rod 6 provided with the sliding member 7 and the middle upper chassis 2, so that the sliding member 7 can not move, and the middle upper chassis 2 is stably locked by the middle upper locking device 4. When the locking piece 8 is not locked, the middle upper underframe lifting device 3 drives the middle upper underframe 2 to descend, the sliding piece 7 is matched with the guide rail 9 arranged below the middle upper underframe 2 and slides to the middle of the middle upper underframe 2 along the width direction of the middle upper underframe 2, and finally the middle upper underframe 2 is supported on the lower underframe 1.

The number of the middle upper underframe lifting devices 3 is at least four, and the middle upper underframe lifting devices are uniformly distributed on two sides of the middle upper underframe 2; the middle lifting device 3 is a telescopic cylinder or a telescopic hydraulic cylinder; the cylinder barrel of the middle frame lifting device 3 is fixed with the lower bottom frame 1 and is used for ensuring that the telescopic direction is vertical; the telescopic end part of the middle upper lifting device 3 is hinged with the middle upper underframe 2, and the end part of the cylinder barrel is hinged with the concave bottom 5. The above structure can be known, for example, the number of the upper frame lifting devices 3 can be four, two sides of the middle upper frame 2 are respectively provided with the upper frame lifting devices 3 on two sides, so that the middle upper frame 2 is stably lifted or lowered by the upper frame lifting devices 3. The middle upper frame lifting device 3 can be a telescopic cylinder or a telescopic hydraulic cylinder, so that the control is simple, in addition, because the middle upper frame locking device 4 locks the middle upper frame 2 in height, the pressure of an automobile parked on the middle upper frame 2 when the middle upper frame lifting device 3 does not work is avoided, the telescopic cylinder or the telescopic hydraulic cylinder is protected, and the telescopic cylinder or the telescopic hydraulic cylinder with large specification is not required to be equipped for lifting force because the required lifting force is smaller, and the cost is saved. The telescopic cylinder or telescopic hydraulic cylinder always has a length, and the recess bottom 5 provides such accommodation space. The concave bottom 5 is a concave part in the middle of the lower underframe 1 and comprises a concave bottom surface and two side walls connected with the bottom surface. The middle upper frame lifting device 3 can also adopt other existing lifting structures matched with gears and racks, the middle upper frame lifting device 3 can adopt a telescopic cylinder or a telescopic hydraulic cylinder, and the stroke of the multi-stage telescopic cylinder can be utilized, so that the middle upper frame lifting device 3 drives the middle upper frame 2 to descend to the lower frame 1, and the loading requirement of a 1AAA wide high box is met. The cylinder barrel of the middle upper frame lifting device 3 is fixed with the lower layer underframe 1 and used for ensuring that the telescopic direction is vertical, so that the middle upper layer underframe 2 can stably and vertically ascend or descend; because the middle-upper lifting device 3 is a telescopic cylinder or a telescopic hydraulic cylinder, the middle-upper lifting device 3 is provided with a telescopic end part and a cylinder end part, the telescopic end part of the middle-upper lifting device 3 is hinged with the middle upper underframe 2, the cylinder end part is hinged with the concave bottom 5, and the middle-upper lifting device 3 can drive the middle upper underframe 2 to lift.

The sliding piece 7 is a cylindrical sliding block and is fixed at one end of the supporting rod 6; the guide rail 9 is a guide plate with a chute 10; the chute 10 extends along the width direction of the middle upper underframe 2; the cylindrical slide blocks penetrate through the slide grooves 10. As can be seen from the above structure, the sliding member 7 may be a cylindrical sliding block, for example, welded to one end of the supporting rod 6, and the guide rail 9 is a guide plate with a chute 10; the chute 10 extends along the width direction of the middle upper underframe 2; the cylindrical sliding block penetrates through the sliding groove 10, and when the middle upper underframe 2 is lifted, the cylindrical sliding block can move along the width direction of the middle upper underframe 2, so that the structure is simple and reliable, and the manufacturing cost is low.

The locking piece 8 comprises a first hole lug 11 arranged on one side of the middle upper underframe 2, a second Kong Er 12 arranged on one end of the supporting rod 6 with the sliding piece 7 and a locking pin; when the sliding piece 7 slides to the edge of the middle upper underframe 2, the through holes of the first hole lug 11 and the second hole lug 12 are aligned, so that the lock pin can be inserted into the through holes of the first hole lug 11 and the second hole lug 12, and one end of the supporting rod 6 provided with the sliding piece 7 is locked with the middle upper underframe 2. According to the structure, when the middle upper underframe 2 is stably lifted by the upper lifting device 3, the sliding piece 7 slides to the edge of the middle upper underframe 2, the through holes of the first hole lug 11 and the second hole lug 12 are aligned, the lock pin can be inserted into the through holes of the first hole lug 11 and the second hole lug 12, at this time, the sliding piece 7 cannot move, one end of the supporting rod 6 provided with the sliding piece 7 is locked with the middle upper underframe 2, namely, the upper underframe locking device 4 locks the height of the middle upper underframe 2 stably. The locking pin may be a spring bolt or a self locking pin. The middle upper underframe 2 is supported by the support rods 6, so that the upper lifting device 3 is prevented from being pressed during bearing.

The middle upper underframe 2 is provided with a strip hole 13 arranged along the width direction; the elongated hole 13 is used for avoiding interference between the second Kong Er and the middle upper chassis 2 during sliding of the sliding member 7. As can be seen from the above structure, the second Kong Er interferes with the middle upper chassis 2 during the sliding process of the sliding member 7, so that the elongated hole 13 is provided to avoid the second Kong Er; the second Kong Er can extend into the elongate aperture 13 during movement.

The middle underframe lifting device further comprises upper frame reinforcing devices 14 which are in one-to-one correspondence with the number of the upper frame locking devices 4; the middle frame reinforcing device 14 comprises two reinforcing rods 15; one end of each of the two reinforcing rods 15 is hinged to two sides of the supporting rod 6, and the other end of each of the two reinforcing rods 15 is hinged to a rotating seat 16 arranged on the lower-layer underframe 1, so that the two reinforcing rods 15 can turn over along the width direction of the middle-upper-layer underframe 2 along with the supporting rod 6, and the supporting rod 6 is prevented from turning over along the length direction of the middle-upper-layer underframe 2. As can be seen from the above construction, each mid-frame locking device 4 is provided with a mid-frame reinforcement 14, said mid-frame reinforcement 14 comprising two reinforcement bars 15; the reinforcing rod 15 one end articulates in bracing piece 6 one side, the other end articulates on establishing the rotation seat 16 at lower floor's chassis 1, it articulates with lower floor's chassis 1 to rotate seat 16, two reinforcing rods 15 set up about bracing piece 6 symmetry, two reinforcing rods 15 can be along with bracing piece 6 along middle part upper strata chassis 2 width direction upset and avoid bracing piece 6 along middle part upper strata chassis 2 length direction upset, when the transport vechicle longitudinal shock, bracing piece 6 receives the power along middle part upper strata chassis 2 length direction upset, stability of bracing piece 6 has been improved to two reinforcing rods 15.

Embodiment III:

See fig. 1-20. On the basis of the second embodiment, the multi-stage telescopic sleeve 23 comprises a plurality of support sleeves 25 which are nested in sequence from inside to outside; the supporting sleeve 25 is provided with a plurality of matching holes 26 arranged along the length direction of the supporting sleeve 25; the matching hole 26 is used for inserting a lock pin to lock the length of the multi-stage telescopic sleeve 23; an upper hinging seat 27 is hinged with the upper end of the end upper frame lifting device 22 and the upper end of the innermost supporting sleeve 25 of the multi-stage telescopic sleeve 23, and a lower hinging seat 28 is hinged with the lower end of the end upper frame lifting device 22 and the lower end of the outermost supporting sleeve 25 of the multi-stage telescopic sleeve 23; the upper hinging seat 27 is fixed on one side of the end upper underframe 19, and the lower hinging seat 28 is fixed on one side of the lower underframe 1; the upper frame rotating device 24 is used for driving the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23 to turn over along the length direction of the lower underframe 1. As can be seen from the above structure, the multi-stage telescopic sleeve 23 includes a plurality of support sleeves 25 nested in sequence from inside to outside, and if three stages are provided, the multi-stage telescopic sleeve 23 includes an outer support sleeve 37, a middle support sleeve 38 and an inner support sleeve 39 nested in sequence from outside to inside, and each support sleeve 25 is provided with a plurality of matching holes 26 arranged along the length direction of the support sleeve 25; the inner side of the top and the outer side of the bottom of each support sleeve 25 are provided with limiting parts, so that when the length of the support sleeve 25 positioned inside is insufficient along with the ascending of the bottom frame 19 at the upper layer of the end part, the outer support sleeve 25 is pulled to move upwards, the length of the multi-stage telescopic sleeve 23 is finally adjustable, and when the multi-stage telescopic sleeve 23 needs to be locked, only a lock pin is needed to be inserted into a corresponding aligned matching hole 26 to lock the length of the multi-stage telescopic sleeve 23, namely, each support sleeve 25 cannot move mutually; the locking pin may be a self-locking pin.

The end upper frame rotating device 24 is a telescopic cylinder or a telescopic hydraulic cylinder; the telescopic end part of the upper end frame rotating device 24 is hinged with a support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23, and the end part of the cylinder barrel is hinged with one side of the lower bottom frame 1; the end upper frame lifting device 22 is a telescopic cylinder or a telescopic hydraulic cylinder; the end shelf control device further comprises a stabilizing rod 29; one end of the stabilizing rod 29 is hinged with the lower underframe 1, and the other end of the stabilizing rod is detachably connected with a third hole lug 30 arranged on the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23; the stabilizing rod 29 is used for enclosing a stabilizing triangle with the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23 and the lower underframe 1; one end of the end upper underframe 19 is hinged with a cab apron 32, and the other end is hinged with an end upper auxiliary underframe 33; the end upper auxiliary underframe 33 is used for connecting the middle upper underframe 2 arranged above the concave bottom 5 when the end upper underframe 19 is in a rising state, and the end upper auxiliary underframe 33 can be folded down and stored below the middle upper underframe 2 when the end upper underframe 19 is in a descending state. As can be seen from the above configuration, the upper end frame rotating device 24 is a telescopic cylinder or a telescopic hydraulic cylinder, and is simple to control, and the multistage telescopic sleeve 23 and the upper end frame lifting device 22 are controlled to rotate by telescopic operation, so that the upper end frame 19 can be supported on the lower frame 1 after being offset in the longitudinal direction. The upper end frame rotating device 24 can also be other power mechanisms with matched gears and racks. The end upper frame lifting device 22 is a telescopic cylinder or a telescopic hydraulic cylinder, is simple to control, controls the height and the angle of the end upper frame 19 through telescopic operation, and the end upper frame lifting device 22 is also conveniently built in the multi-stage telescopic sleeve 23. The end bracket lifting device 22 can also be other power mechanisms matched with a gear and a rack. Because the multi-stage telescopic sleeve 23 can be overturned, after the position of the multi-stage telescopic sleeve 23 is determined, the locking is needed, and the end rack rotating device 24 is prevented from being in a working state all the time; the stabilizing rod 29 can be a pull rod with an adaptive length or an adjustable telescopic threaded rod, and has the advantages of simple structure and low manufacturing cost. One end of the stabilizing rod 29 is hinged with the lower underframe 1, and the other end of the stabilizing rod 29 can be connected with a third hole lug 30 arranged on the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23 through a lock pin, namely the lock pin is inserted into a through hole of the third hole lug 30 and a through hole corresponding to the stabilizing rod 29 at the end; the stabilizing rod 29 is used for forming a stabilizing triangle together with the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23 and the lower underframe 1. When the multi-stage telescopic sleeve 23 needs to rotate, the lock pin is pulled out. The cab apron 32 is a conventional movable cab apron for facilitating loading and unloading of cargo onto a transport vehicle. The other end of the end upper underframe 19 is hinged with an end upper auxiliary underframe 33, and the end upper auxiliary underframe 33 is used for connecting the middle upper underframe 2 arranged above the concave bottom 5 when the end upper underframe 19 is in a rising state. In the raised state, there is a gap between the end upper chassis 19 and the middle upper chassis 2, and the end upper auxiliary chassis 33 compensates for the gap, and if there is no gap, the end upper chassis 19 is offset in the longitudinal direction and then collides with the middle upper chassis 2. In the lowered state, the end upper auxiliary chassis 33 can be folded down and stored under the middle upper chassis 2. The end upper underframe 19 is shifted in the length direction and then is connected with the middle upper underframe 2 after being lowered. The end-on-shelf control device further comprises a transverse stabilizer bar; one end of the transverse stabilizer bar is connected with the end upper underframe 19, and the other end of the transverse stabilizer bar is connected with the support sleeve 25 at the outermost part of the multi-stage telescopic sleeve 23; the transverse stabilizer bar is used for forming a stable triangle together with the multistage telescopic sleeve 23 and the end upper underframe 19; the stabilizer bar is detachable.

Also included are a coupler buffer 34, a brake 35 and a bogie 36; the coupler buffer device 34, the brake device 35 and the bogie 36 are arranged on the lower underframe 1; the concave bottom 5 of the lower underframe 1 is correspondingly provided with two connected middle underframe lifting devices, and the high bottoms 20 at the two ends are respectively corresponding to one end underframe lifting device; both sides of the end upper underframe 19 are provided with upper movable bars 31; the movable rail 31 of the end upper frame can be locked at the upturning position and can be stored at the downturning position; the end upper underframe 19 is of an arc-shaped structure, the middle part is high, and the two sides are low; the two sides of the middle upper underframe 2 are provided with middle upper movable bars 17; the upper movable rail 17 can be locked at the upturning position and stored at the downturning position; the middle upper underframe 2 is provided with a container locking device 18; the lower underframe 1 is also provided with container locking means 18. According to the structure, when a person operates, the end upper underframe 19 is put in the upturned position to be locked, so that the protection function is realized; the end upper underframe 19 is connected to one side of the end upper underframe 19 through a hinge seat, so that the end upper underframe 19 can be turned over, a matched through hole is drilled in the end upper underframe 19 and the hinge seat, and a lock pin is inserted to lock the end upper underframe 19 at an upturned position; when the end upper underframe 19 needs to be stored in the downward turning position, the end upper underframe 19 is turned to be stored in the approximately horizontal position, so that the container is prevented from being damaged when being loaded. When a person operates, the middle frame movable fence 17 is put in an upturned position to lock, so that the protection function is realized; the middle upper frame movable fence 17 is connected to one side of the middle upper layer underframe 2 through a hinge seat, so that the middle upper frame movable fence 17 can be turned over, and a matched through hole is drilled on the middle upper frame movable fence 17 and the hinge seat, and a lock pin is inserted to lock the middle upper frame movable fence 17 at an upturned position; when the upper movable rail 17 needs to be stored in the downward turning position, the upper movable rail 17 is turned over to be stored in the approximately horizontal position, so that the container is prevented from being damaged when being loaded. The end upper underframe 19 is of an arc-shaped structure, the middle part is high, and the two sides are low. Thus there is a large space between the upper floor 20 and the end upper underframe 19 to accommodate the car, as the car is also high on the middle and low on the two sides. The container locking device 18 is used to support and secure a container. For supporting and fastening containers. The coupler buffer 34, the brake 35 and the bogie 36 are the existing railway vehicle technology and will not be described in detail.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (8)

1. The utility model provides a dual-purpose concave bottom transport vechicle of car-container which characterized in that: comprises a lower underframe (1), a middle underframe lifting device and an end underframe lifting device; the middle part of the lower underframe (1) is provided with a concave bottom (5), two ends of the lower underframe are provided with high bottoms (20), and the concave bottom (5) and the high bottoms (20) are connected through inclined bottoms (21); the middle underframe lifting device comprises a middle upper underframe (2), an upper underframe lifting device (3) and an upper underframe locking device (4); an upper lifting device (3) is arranged between the concave bottom (5) and the middle upper underframe (2); the middle upper underframe lifting device (3) is used for controlling the middle upper underframe (2) to vertically lift; the number of the middle upper frame locking devices (4) is at least four, and the middle upper frame locking devices are uniformly distributed on two sides of the middle upper frame (2); the middle upper underframe locking device (4) is used for locking the height of the middle upper underframe (2); the end underframe lifting device comprises an end upper underframe (19) and an end upper frame control device; the end upper underframe (19) corresponds to a high bottom (20), four end upper frame control devices are arranged between the high bottom (20) and the end upper underframe (19), and a pair of end upper frame control devices are symmetrically arranged at the front and back positions of the end upper underframe (19); the end upper frame control device comprises an end upper frame lifting device (22), a multi-stage telescopic sleeve (23) and an end upper frame rotating device (24); the end upper frame lifting device (22) is used for controlling the end upper layer bottom frame (19) to lift; an end upper frame lifting device (22) is arranged in the multistage telescopic sleeve (23); the multistage telescopic sleeve (23) is used for locking the length of the end rack lifting device (22); the end upper frame rotating device (24) is used for driving the multistage telescopic sleeve (23) to turn over along the length direction of the lower-layer underframe (1); the upper frame locking device (4) comprises a supporting rod (6), a sliding piece (7), a locking piece (8) and a guide rail (9); one end of the supporting rod (6) is hinged to one side of the lower-layer underframe (1), and the other end of the supporting rod is provided with a sliding piece (7); the sliding piece (7) is used for being matched with a guide rail (9) arranged below the middle upper-layer underframe (2) and sliding along the width direction of the middle upper-layer underframe (2); the locking piece (8) is used for locking one end of the supporting rod (6) provided with the sliding piece (7) and the middle upper underframe (2) when the sliding piece (7) slides to the edge of the middle upper underframe (2); the multistage telescopic sleeve (23) comprises a plurality of support sleeves (25) which are nested in sequence from inside to outside; the support sleeve (25) is provided with a plurality of matching holes (26) arranged along the length direction of the support sleeve (25); the matching hole (26) is used for inserting a lock pin to lock the length of the multi-stage telescopic sleeve (23); an upper hinging seat (27) is hinged with the upper end of the end upper frame lifting device (22) and the upper end of the innermost supporting sleeve (25) of the multi-stage telescopic sleeve (23), and a lower hinging seat (28) is hinged with the lower end of the end upper frame lifting device (22) and the lower end of the outermost supporting sleeve (25) of the multi-stage telescopic sleeve (23); the upper hinging seat (27) is fixed on one side of the end part upper layer underframe (19), and the lower hinging seat (28) is fixed on one side of the lower layer underframe (1); the upper end frame rotating device (24) is used for driving the support sleeve (25) at the outermost part of the multi-stage telescopic sleeve (23) to turn over along the length direction of the lower bottom frame (1).

2. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the number of the upper lifting devices (3) is at least four, and the upper lifting devices are uniformly distributed on two sides of the middle upper underframe (2); the middle lifting device (3) is a telescopic cylinder or a telescopic hydraulic cylinder; the cylinder barrel of the middle frame lifting device (3) is fixed with the lower bottom frame (1) and is used for ensuring that the telescopic direction is vertical; the telescopic end part of the middle upper lifting device (3) is hinged with the middle upper underframe (2), and the end part of the cylinder barrel is hinged with the concave bottom (5).

3. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the sliding piece (7) is a cylindrical sliding block and is fixed at one end of the supporting rod (6); the guide rail (9) is a guide plate with a chute (10); the sliding groove (10) extends along the width direction of the middle upper underframe (2); the cylindrical sliding block penetrates through the sliding groove (10).

4. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the locking piece (8) comprises a first hole lug (11) arranged on one side of the middle upper underframe (2), a second Kong Er (12) arranged on one end of the supporting rod (6) with the sliding piece (7) and a locking pin; when the sliding piece (7) slides to the edge of the middle upper underframe (2), the through holes of the first hole lug (11) and the second Kong Er (12) are aligned, so that the lock pin can be inserted into the through holes of the first hole lug (11) and the second Kong Er (12), and one end of the supporting rod (6) provided with the sliding piece (7) is locked with the middle upper underframe (2).

5. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 4, wherein: the middle upper underframe (2) is provided with a strip hole (13) arranged along the width direction; the strip hole (13) is used for avoiding interference between the second Kong Er (12) and the middle upper-layer underframe (2) in the sliding process of the sliding piece (7).

6. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the middle underframe lifting device further comprises upper frame reinforcing devices (14) which are in one-to-one correspondence with the upper frame locking devices (4); the middle frame reinforcing device (14) comprises two reinforcing rods (15); one end of each of the two reinforcing rods (15) is hinged to two sides of the supporting rod (6), and the other end of each of the two reinforcing rods is hinged to a rotating seat (16) arranged on the lower-layer underframe (1), so that the two reinforcing rods (15) can turn over along the width direction of the middle-upper-layer underframe (2) along with the supporting rod (6) and the supporting rod (6) is prevented from turning over along the length direction of the middle-upper-layer underframe (2).

7. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the end upper frame rotating device (24) is a telescopic cylinder or a telescopic hydraulic cylinder; the telescopic end part of the upper end frame rotating device (24) is hinged with a support sleeve (25) at the outermost part of the multi-stage telescopic sleeve (23), and the end part of the cylinder barrel is hinged with one side of the lower bottom frame (1); the end upper frame lifting device (22) is a telescopic cylinder or a telescopic hydraulic cylinder; the end-on-shelf control device further comprises a stabilizing rod (29); one end of the stabilizing rod (29) is hinged with the lower underframe (1), and the other end of the stabilizing rod is detachably connected with a third hole lug (30) arranged on the support sleeve (25) at the outermost part of the multi-stage telescopic sleeve (23); the stabilizing rod (29) is used for enclosing a stabilizing triangle with the support sleeve (25) at the outermost part of the multi-stage telescopic sleeve (23) and the lower underframe (1); one end of the end upper layer underframe (19) is hinged with a cab apron (32), and the other end is hinged with an end upper layer auxiliary underframe (33); the end upper auxiliary underframe (33) is used for connecting the middle upper underframe (2) arranged above the concave bottom (5) when the end upper underframe (19) is in a rising state, and the end upper auxiliary underframe (33) can be folded down and stored below the middle upper underframe (2) when the end upper underframe (19) is in a descending state.

8. The dual purpose concave bottom vehicle for automobiles and containers as defined in claim 1, wherein: the car coupler is characterized by further comprising a car coupler buffer device (34), a brake device (35) and a bogie (36); the coupler buffer device (34), the brake device (35) and the bogie (36) are arranged on the lower underframe (1); the concave bottom (5) of the lower underframe (1) is correspondingly provided with two connected middle underframe lifting devices, and the high bottoms (20) at two ends are respectively corresponding to one end underframe lifting device; both sides of the end upper underframe (19) are provided with upper movable bars (31); the movable rail (31) of the end upper frame can be locked at an upturning position and stored at a downturning position; the end upper underframe (19) is of an arc-shaped structure, the middle part is high, and the two sides are low; the two sides of the middle upper underframe (2) are provided with upper movable bars (17); the middle frame movable fence (17) can be locked at an upturning position and stored at a downturning position; a container locking device (18) is arranged on the middle upper underframe (2); the lower underframe (1) is also provided with a container locking device (18).