CN218434560U - Lifting machine of new energy heavy truck power station - Google Patents

Abstract

The utility model discloses a new forms of energy heavily block machine of lifting of trading power station, it includes: a frame; the first conveying mechanism comprises a lifting frame and the like, a lifting suspender is fixed at the top end of the lifting frame, and a lifting slide block is arranged on the side surface of the lifting frame; the lifting mechanism comprises a lifting frame and the like, the lifting frame is fixed on the top end of the frame, and the lifting motor is arranged on the lifting frame; the second conveying mechanism comprises a horizontal roller frame and the like, and a horizontal roller conveying motor is arranged on the side surface of the horizontal roller frame; the unpowered roller line mechanism comprises an auxiliary roller frame and the like, wherein an auxiliary roller is arranged on a third roller shaft. The utility model discloses an elevating system can go up and down to the battery, carries out horizontal, horizontal transport through first conveying mechanism, second conveying mechanism in addition, and the convenience trades the electricity with battery compartment, new forms of energy heavily block the chassis and carries storage device to dock.

Description

Lifting machine of new energy heavy truck power station

Technical Field

The utility model relates to a machine of lifting especially relates to a new forms of energy heavily blocks machine of lifting that trades power station.

Background

With the development of the electric automobile industry, an electric automobile battery becomes a development bottleneck of the electric automobile battery, in order to continuously provide a continuous power supply for the electric automobile and overcome the defect of long charging time, a battery replacing method is adopted to provide continuous power for the electric automobile, the size and the weight of the existing new energy heavy truck battery are large, the battery is generally carried to a specified place by a forklift, a crane or other tools, the forklift, the crane or other tools are heavy and complex, the movement is slow, the working efficiency is low, the battery is inconvenient to place into a battery bin and a new energy heavy truck chassis battery replacing and conveying and storing device, namely the battery is inconvenient to be butted with the battery bin and the new energy heavy truck chassis battery replacing and conveying and storing device, the displacement of the inside of the battery can be caused by bumping generated in the moving process, the service life of the battery is influenced, and potential safety hazards such as explosion exist.

Disclosure of Invention

To the above situation, in order to overcome the defects of the prior art, the utility model provides a new forms of energy heavily blocks machine of lifting that trades power station.

The utility model discloses a solve above-mentioned technical problem through following technical scheme: the utility model provides a machine of lifting of new forms of energy heavy truck power station which characterized in that, it includes:

a frame;

the first conveying mechanism comprises a lifting frame, a lifting suspender, a lifting slider, a transverse conveying chain, a first roller shaft, first double-chain-wheel rollers, roller supports, first bearings, a first coupler and a transverse conveying motor, wherein the lifting suspender is fixed at the top end of the lifting frame, the lifting slider is arranged on the side surface of the lifting frame, the adjacent first double-chain-wheel rollers are in transmission connection through the transverse conveying chain, the first double-chain-wheel rollers are arranged on the first roller shaft, two ends of the first roller shaft are connected with the roller supports, the transverse conveying motor is connected with one group of first roller shafts through the first coupler, the first bearings are arranged between the first double-chain-wheel rollers and the first roller shafts, and the first double-chain-wheel rollers are located in the roller supports;

the lifting mechanism comprises a lifting frame, a lifting motor, a transmission chain, a transmission shaft, a right lifting chain wheel, a right lifting chain, a left lifting chain, a second bearing, a left lifting chain wheel and a balancing weight, wherein the lifting frame is fixed on the top end of the frame;

the second conveying mechanism is perpendicular to the first conveying mechanism and comprises a horizontal roller frame, a horizontal roller conveying motor, a second coupler, a third bearing, a horizontal conveying chain, a second double-chain-wheel roller and a second roller shaft, wherein the horizontal roller conveying motor is installed on the side face of the horizontal roller frame and is connected with one group of second roller shafts through the second coupler;

the unpowered roller line mechanism is positioned on the side face of the second conveying mechanism and comprises an auxiliary roller frame, auxiliary rollers and a third roller shaft, the auxiliary rollers are mounted on the third roller shaft, two ends of the third roller shaft are connected with the auxiliary roller frame, and the auxiliary rollers are positioned in the auxiliary roller frame.

Preferably, the lifting frame is U-shaped.

Preferably, a horizontal movement detection sensor is arranged on the front side of the bottom end of the lifting frame, and a transverse detection sensor is arranged on the side face of the bottom end of the lifting frame.

Preferably, a first base is arranged at the bottom end of the auxiliary roller frame, and a second base is arranged at the bottom end of the horizontal roller frame.

Preferably, one side of the frame is provided with an upper sensor and a lower sensor.

The utility model discloses an actively advance the effect and lie in: the utility model discloses an elevating system can go up and down to the battery, transversely carry out through first conveying mechanism, second conveying mechanism in addition, horizontal transport to can be convenient, steady, quick put into or shift out the battery compartment with the battery and during the new forms of energy heavily blocks the chassis and trades electric transport storage device, conveniently trade electric transport storage device with battery compartment, new forms of energy heavily blocks the chassis and dock, raise the efficiency, do not produce jolting, the protection battery does not have the potential safety hazard, the security is improved.

Drawings

Fig. 1 is the structure schematic diagram of the lifting machine of the new energy heavy truck power station of the utility model.

Fig. 2 is a schematic structural diagram of the first conveying mechanism of the present invention.

Fig. 3 is a schematic structural view of the middle lifting mechanism of the present invention.

Fig. 4 is a schematic structural view of the second conveying mechanism of the present invention.

Fig. 5 is a schematic structural view of the unpowered roller line mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 to 5, the utility model discloses new forms of energy heavily blocks machine of lifting of trading power station includes:

a frame 1;

the first conveying mechanism 2 comprises a lifting frame 7, a lifting suspender 8, a lifting slider 9, a transverse conveying chain 10, first roller shafts 11, first double-sprocket rollers 12, roller supports 13, first bearings 14, a first coupler 15 and a transverse conveying motor 16, wherein the lifting suspender 8 is fixed at the top end of the lifting frame 7, the lifting slider 9 is installed on the side faces of the lifting frame 7, the adjacent first double-sprocket rollers 12 are in transmission connection through the transverse conveying chain 10, the first double-sprocket rollers 12 are installed on the first roller shafts 11, two ends of each first roller shaft 11 are connected with the roller supports 13, the transverse conveying motor 16 is connected with one group of first roller shafts 11 through the first coupler 15, the first bearings 14 are arranged between the first double-sprocket rollers 12 and the first roller shafts 11, and the first double-sprocket rollers 12 are located in the roller supports 13;

the lifting mechanism 3 comprises a lifting frame 19, a lifting motor 20, a transmission chain wheel 21, a transmission chain 22, a transmission shaft 23, a right lifting chain wheel 24, a right lifting chain 25, a left lifting chain 26, a second bearing 27, a left lifting chain wheel 28 and a balancing weight 29, wherein the lifting frame 19 is fixed on the top end of the frame 1, the lifting motor 20 is installed on the lifting frame 19, the lifting motor 20 is connected with the transmission chain wheel 21 through the transmission chain 22, the transmission chain wheel 21 and the right lifting chain wheel 24 are both fixed on the transmission shaft 23, the right lifting chain 25 is connected with the right lifting chain wheel 24, the bearing 27 is installed at the left end of the lifting frame 19, the left lifting chain wheel 28 is connected with the second bearing 27, the left lifting chain wheel 26 is connected with the left lifting chain wheel 28, one ends of the two right lifting chains 25 are respectively connected with the two lifting suspenders 8, and one ends of the two left lifting chains 26 are respectively connected with the other two lifting suspenders 8;

the second conveying mechanism 4 is perpendicular to the first conveying mechanism 2, the second conveying mechanism 4 comprises a horizontal roller frame 30, a horizontal roller conveying motor 31, a second coupler 32, a third bearing 33, a horizontal conveying chain 34, second double-chain-wheel rollers 35 and second roller shafts, the horizontal roller conveying motor 31 is installed on the side face of the horizontal roller frame 30, the horizontal roller conveying motor 31 is connected with one group of second roller shafts through the second coupler 32, the second double-chain-wheel rollers 35 are installed on the second roller shafts, two ends of each second roller shaft are connected with the horizontal roller frame 30, two adjacent second double-chain-wheel rollers 35 are connected through the horizontal conveying chain 34, a third bearing 33 is arranged between each second double-chain-wheel roller 35 and each second roller shaft, and the second double-chain wheels 35 are located in the horizontal roller frame 30;

the unpowered roller line mechanism 5 is located on the side of the second conveying mechanism 4 and comprises an auxiliary roller frame 51, an auxiliary roller 52 and a third roller shaft 53, the auxiliary roller 52 is mounted on the third roller shaft 53, two ends of the third roller shaft 53 are connected with the auxiliary roller frame 51, and the auxiliary rollers 52 are located in the auxiliary roller frame 51.

The lifting frame 7 is U-shaped, has simple structure and is convenient for symmetrically mounting elements.

The bottom front side of lifting frame 7 is equipped with a horizontal migration detection sensor 17, and the bottom side of lifting frame 7 is equipped with a horizontal detection sensor 18, and horizontal migration detection sensor 17 detects whether the battery is carried to target in place, and horizontal detection sensor 18 detects whether the battery position takes place the skew.

The bottom end of the auxiliary roller frame 51 is provided with a first base 54, and the bottom end of the horizontal roller frame 30 is provided with a second base 55, so that the auxiliary roller frame 51 and the horizontal roller frame 30 are respectively placed on the ground through the first base 54 and the second base 55, and the stability is improved.

An upper sensor 6 and a lower sensor 56 are arranged on one side of the frame 1, so that the position information of the lifting frame 7 can be detected in real time, and the lifting frame 7 is prevented from being excessively lifted or lowered to influence normal use.

The utility model discloses a frame 1, lift frame 7, promote jib 8, promote slider 9, lateral conveying chain 10, first drum shaft 11, first double sprocket cylinder 12, roller support 13, first bearing 14, first shaft coupling 15, lateral conveying motor 16, horizontal migration detection sensor 17, lateral detection sensor 18, lift frame 19, lifting motor 20, driving sprocket 21, driving chain 22, transmission shaft 23, right lifting sprocket 24, right lifting chain 25, left lifting chain 26, second bearing 27, left lifting sprocket 28, balancing weight 29, horizontal drum frame 30, horizontal drum conveying motor 31, second shaft coupling 32, third bearing 33, horizontal conveying chain 34, second double sprocket cylinder 35, second drum shaft, auxiliary drum frame 51, auxiliary drum 52 and third drum shaft 53 etc. part are general standard or the part that technical staff knows, its structure and principle all can learn to know through the technical manual or through conventional experimental method for this technical staff. The first double-chain-wheel roller and the second double-chain-wheel roller are provided with double chain wheels, the transverse conveying chain and the horizontal conveying chain can adopt double-row sleeve roller chains, and the double chain wheels are connected with the sleeve roller chains, so that impact resistance is guaranteed, bearing capacity is strong, and transmission is stable.

The working principle of the utility model comprises the following two parts:

firstly, a lifter and a new energy heavy truck chassis electricity exchanging, conveying and storing device butt joint part, the new energy heavy truck chassis electricity exchanging, conveying and storing device conveys the battery to an unpowered roller line mechanism 5, at the moment, a lifting motor 20 of a lifting mechanism 3 of the lifter receives a signal to start rotating, so that a transmission chain 22 is driven to rotate, the transmission chain 22 drives a transmission chain wheel 21, the transmission chain wheel 21 rotates together with a right lifting chain wheel 24 and a left lifting chain wheel 28 through a transmission shaft 23, a right lifting chain 25 and a left lifting chain 26 are driven to descend, and a lifting frame 7 is lowered to a low position (the upper surface of a second conveying mechanism 4) through a lifting hanger rod 8; the two horizontal roller conveying motors 31 rotate simultaneously (the rotation direction is the same as the conveying direction of the new energy heavy truck chassis battery replacement conveying storage device), the second double-chain rollers 35 are driven to rotate along the horizontal direction, the batteries slide into the first conveying mechanism 2 of the lifter, and the lower surfaces of the batteries are in contact with the first double-chain roller 12. The horizontal movement detection sensor 17 detects that the battery is conveyed in place, the transverse detection sensor 18 does not detect the position deviation of the battery, the horizontal roller conveying motor 31 stops rotating simultaneously with a motor of the new energy heavy truck chassis battery replacement conveying storage device and sends a signal in place, the lifting mechanism 3 receives the signal, the lifting motor 20 receives the signal and starts rotating to drive the transmission chain 22 to rotate, the transmission chain 21 is driven by the rotation chain 22 to rotate together with the right lifting chain wheel 24 and the left lifting chain wheel 28 to drive the right lifting chain 25 and the left lifting chain 26 to ascend, and the lifting frame 7 lifts the battery to a specified storage bin position through the lifting hanger rod 8.

And secondly, the lifting machine is in butt joint with the battery bins, and if a certain layer of battery bin is full of batteries, the lifting frame 7 of the lifting machine is lifted to the corresponding bin position. The transverse conveying motor 16 and the corresponding bin roller conveying motor rotate along the conveying direction of the fully charged batteries simultaneously, the fully charged batteries roll and slide into the first conveying mechanism 2 through the first double-chain wheel roller 12, the transverse detection sensor 18 detects that the batteries are conveyed in place, the transverse conveying motor 16 and the corresponding bin roller conveying motor stop rotating simultaneously and send out signals in place, the lifting mechanism 3 receives the signals and lowers the batteries to a low position, the batteries fall on the second conveying mechanism 4, the horizontal roller conveying motor 31 and the motors of the new energy heavy truck chassis power conversion conveying storage device start to move simultaneously to push the batteries in the horizontal direction, and the fully charged batteries are conveyed to the new energy heavy truck chassis power conversion conveying storage device through the unpowered roller line mechanism 5.

To sum up, the utility model discloses an elevating system can go up and down to the battery, transversely carries out through first conveying mechanism, second conveying mechanism in addition, horizontal transport to can be convenient, steady, quick put into or shift out the battery compartment with the battery and the heavy card chassis of new forms of energy trades the electric storage device in, conveniently trade the electric storage device with battery compartment, the heavy card chassis of new forms of energy and dock, raise the efficiency, do not produce jolting, the protection battery does not have the potential safety hazard, the security is improved.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a machine of lifting of new forms of energy heavy truck power station which characterized in that, it includes:

a frame;

the first conveying mechanism comprises a lifting frame, a lifting suspender, a lifting slider, a transverse conveying chain, a first roller shaft, first double-chain-wheel rollers, roller supports, first bearings, a first coupler and a transverse conveying motor, wherein the lifting suspender is fixed at the top end of the lifting frame, the lifting slider is arranged on the side surface of the lifting frame, the adjacent first double-chain-wheel rollers are in transmission connection through the transverse conveying chain, the first double-chain-wheel rollers are arranged on the first roller shaft, two ends of the first roller shaft are connected with the roller supports, the transverse conveying motor is connected with one group of first roller shafts through the first coupler, the first bearings are arranged between the first double-chain-wheel rollers and the first roller shafts, and the first double-chain-wheel rollers are located in the roller supports;

the lifting mechanism comprises a lifting frame, a lifting motor, a transmission chain wheel, a transmission chain, a transmission shaft, a right lifting chain wheel, a right lifting chain, a left lifting chain wheel, a second bearing, a left lifting chain wheel and a balancing weight, wherein the lifting frame is fixed on the top end of the frame;

the second conveying mechanism is vertical to the first conveying mechanism and comprises a horizontal roller frame, a horizontal roller conveying motor, a second coupler, a third bearing, a horizontal conveying chain, second double-chain-wheel rollers and a second roller shaft, the horizontal roller conveying motor is installed on the side face of the horizontal roller frame, the horizontal roller conveying motor is connected with one group of second roller shafts through the second coupler, the second double-chain-wheel rollers are installed on the second roller shafts, two ends of each second roller shaft are connected with the horizontal roller frame, two adjacent second double-chain-wheel rollers are connected through the horizontal conveying chain, the third bearing is arranged between each second double-chain-wheel roller and each second roller shaft, and the plurality of second double-chain-wheel rollers are located in the horizontal roller frame;

and the unpowered roller line mechanism is positioned on the side surface of the second conveying mechanism and comprises an auxiliary roller frame, an auxiliary roller and a third roller shaft, the auxiliary roller is arranged on the third roller shaft, two ends of the third roller shaft are connected with the auxiliary roller frame, and the auxiliary rollers are positioned in the auxiliary roller frame.

2. The lift for a new energy re-chucking power station as recited in claim 1, wherein said lifting frame is U-shaped.

3. The lift for a new energy re-card power station as claimed in claim 1, wherein the front side of the bottom end of the lifting frame is provided with a horizontal movement detection sensor, and the side of the bottom end of the lifting frame is provided with a lateral movement detection sensor.

4. The lift of a new energy re-card power station as recited in claim 1, wherein a first base is provided at a bottom end of the auxiliary roller frame, and a second base is provided at a bottom end of the horizontal roller frame.

5. The lift of a new energy re-chucking power station as recited in claim 1, wherein said frame has an upper sensor and a lower sensor on one side.

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