CN219078129U - Battery transportation lifting mechanism - Google Patents

Abstract

The utility model belongs to the technical field of storage batteries, and particularly relates to a battery transferring and lifting mechanism, which comprises a walking frame and a lifting mechanism arranged on one side of the walking frame, wherein walking wheels are arranged below the walking frame and move along a walking track, the lifting mechanism comprises a shell, a first rotating shaft and a second rotating shaft are respectively arranged at the upper part and the lower part in the shell, the first rotating shaft and the second rotating shaft are driven by a gear and a lifting chain, the first rotating shaft is powered by a first motor, a track shoe is arranged on one side of the lifting chain, and transferring windows are respectively arranged on two sides of the shell of the lifting mechanism. The utility model improves the efficiency of carrying the battery to a high layer, saves labor and ensures the safety of the battery to be lifted up and down.

Description

Battery transportation lifting mechanism

Technical Field

The utility model relates to the technical field of storage batteries, in particular to a battery transport and lifting mechanism.

Background

In the current battery production process, the transportation of the battery is an important work, the battery can be transported in a plane by using devices such as a conveyor belt, but the up-and-down transportation of the battery is generally carried out by manpower, the manual work is very physical effort-consuming for staff when carrying up-and-down, the up-and-down transportation of heavy objects has a certain danger, the phenomenon that the battery falls and is damaged can occur in the process of transportation, the efficiency of the transportation is lower under such conditions, and the follow-up work can be influenced. There is a need for a high-rise battery handling lift mechanism that is efficient to address the above-described issues.

Disclosure of Invention

In order to improve the efficiency of high-level battery transportation, save manpower and ensure the safe up-and-down lifting of the battery, the utility model provides a battery transportation and up-rack lifting mechanism.

The utility model adopts the following technical scheme:

the utility model provides a battery transport lifting mechanism that puts on shelf, includes walking frame and the elevating system of setting in walking frame one side, the below of walking frame sets up the walking wheel, through setting up the walking wheel, can make the holistic position of mechanism adjust at production transportation line at any time.

The travelling wheels move along the travelling rail, and the travelling wheels can stably move towards the appointed direction through the limitation of the travelling rail and the fixed path, so that the moving efficiency is ensured; the lifting mechanism comprises a shell, a first rotating shaft and a second rotating shaft are respectively arranged on the upper part and the lower part in the shell, the first rotating shaft and the second rotating shaft are driven by a first motor through gears and a lifting chain, a track shoe is arranged on one side of the lifting chain, and a transfer window is formed in two sides of the shell of the lifting mechanism.

Further, the walking frame is trapezoidal, and one side of keeping away from elevating system on the walking frame is provided with hand railing, and the setting of hand railing can make the staff maintain and look over the mechanism when needs, protects the safety of walking on the walking frame personnel.

Further, two driving gears are arranged on the first rotating shaft, two driven gears are arranged on the second rotating shaft corresponding to the driving gears, and the driving gears and the driven gears are driven by a lifting chain.

Further, the lifting chain is fixedly arranged on the first baffle frame, the first baffle frame is fixedly connected with the second baffle frame, the second baffle frame is horizontally arranged, and the second baffle frame is provided with a track shoe. The first baffle frame is used for protecting the battery on the supporting plate from sliding off from the side.

Further, the lifting chain is connected with the upper part and the lower part of the first baffle frame so as to stably lift the battery.

Further, third rotating shafts are arranged at two ends of the second baffle frame, an inner gear is arranged on the third rotating shafts, and the track shoe is arranged on the periphery of the second baffle frame and meshed with the inner gear. In order to facilitate battery taking and placing, the upper surface of the track shoe is provided with a bulge.

Further, the transfer window is communicated back and forth and comprises a battery inlet and a battery outlet.

Further, the battery inlet is provided with a conveying rotating shaft, the battery outlet is provided with a conveying rotating shaft and a support, the support is provided with a conveying supporting plate, and the conveying supporting plate is located outside the shell. In order to facilitate the taking and placing of the battery, a bulge is also arranged on the conveying supporting plate.

The beneficial effects of the utility model are as follows:

1. the lifting mechanism is provided with a walking frame, walking wheels are arranged below the walking frame, and the whole position of the mechanism can be adjusted on a production and transportation line at any time through the walking wheels; the lifting mechanism further comprises a walking rail special for walking wheels, the walking wheels move along the walking rail, the walking wheels can stably move towards the appointed direction through the limitation and the fixed path of the walking rail, and the overall moving efficiency of the mechanism is guaranteed.

2. This elevating system is through driving gear, driven gear, pivot and the cooperation of promoting chain constitution structure, accomplishes track shoe and keeps off holistic raising and lowering functions of frame, and the gear is difficult for skidding with the transmission structure who promotes chain engagement, has good locate function, drives and promotes effectually.

Drawings

FIG. 1 is a schematic view of a battery transport and loading lifting mechanism according to the present utility model;

FIG. 2 is a schematic diagram of a battery transport lifting mechanism according to a second embodiment of the present utility model;

FIG. 3 is a schematic view of a battery transport overhead lifting mechanism according to the present utility model;

FIG. 4 is a schematic view of a battery transfer on-shelf lift mechanism of the present utility model;

FIG. 5 is a schematic view of a pallet structure of a battery transport racking lifting mechanism of the present utility model;

FIG. 6 is a schematic diagram of a pallet structure of a battery transport overhead lifting mechanism according to the present utility model;

FIG. 7 is a schematic diagram of a pallet structure of a battery transport racking lifting mechanism of the present utility model;

fig. 8 is a schematic view showing a structure of a battery transport and lifting mechanism according to the present utility model.

The reference numerals in the drawings are: the walking rail comprises a walking rail body 1, a walking frame 2, walking wheels 3, a walking rail 4, a digital control screen 5, a manual controller 6, a running indicator lamp 7, a first motor 8, a conveying rotating shaft 9, a track shoe 10, a photoelectric sensing module 11, a driving gear 12, a lifting chain 13, a first rotating shaft 14, an internal gear 16, a driven gear 17, a second rotating shaft 18, a fixed photoelectric sensing module 19, a supporting plate 20, a shell 21, a support 22 and a first blocking frame 24.

Detailed Description

The utility model is further described with reference to the drawings and detailed description which follow:

as shown in fig. 1-8, a battery transport lifting mechanism comprises a walking frame 2 and a lifting mechanism arranged on one side of the walking frame 2, wherein walking wheels 3 are arranged below the walking frame 2, and the walking wheels 3 move along a walking track 4. The arrangement of the walking frame 2 and the walking track 4 ensures that the utility model can be adjusted at any time along the battery production and transportation line and ensures the stable moving path. The walking frame 2 of this embodiment is trapezoidal, and one side that keeps away from elevating system on the walking frame 2 is provided with hand railing 1, and hand railing 1 can let the staff walk on the walking frame 2 when carrying out maintenance and the looking over of mechanism, avoids taking place the dangerous condition of falling.

The lifting mechanism comprises a shell 21, wherein a first rotating shaft 14 and a second rotating shaft 18 are respectively arranged at the upper part and the lower part in the shell 21, and the first rotating shaft 14 and the second rotating shaft 18 are driven by a gear and a lifting chain 13; specifically, two driving gears 12 are disposed on the first rotating shaft 14, two driven gears 17 are disposed on the second rotating shaft 18 corresponding to the positions of the driving gears 12, the driving gears 12 and the driven gears 17 are driven by the lifting chain 13, and the first rotating shaft 14 is powered by the first motor 8.

The lifting chain 13 is provided with a first blocking frame 24, one side of the lifting chain 13 is provided with a track shoe 10, and specifically, the lifting chain 13 is fixedly connected with the upper part and the lower part of the first blocking frame 24 in a nut and welding mode. The first baffle frame 24 is also fixedly connected with a second baffle frame, the second baffle frame is horizontally arranged, and in order to make the connection between the first baffle frame 24 and the second baffle frame more firm, an inclined support plate is arranged between the two baffle frames, as shown in fig. 8; third rotating shafts are arranged at two ends of the second baffle frame, track shoe supporting plates are fixedly arranged in the middle of the second baffle frame, and an inner gear 16 is arranged on the third rotating shafts. The periphery of the second baffle frame is provided with a track shoe 10, the track shoe 10 is meshed with an internal gear 16, and the surface of the track shoe 10 is provided with a bulge so as to facilitate taking and placing of batteries.

The third rotating shaft is powered by a second motor on one side of the second baffle frame, so that the track shoe 10 is driven to move, the second motor can be fixedly arranged on one side of the second baffle frame, an output shaft of the second motor is connected with a speed changer, and the speed changer is connected with the third rotating shaft. A photoelectric sensing module 11 is arranged above the second baffle frame. The elevation of the track shoe 10 is controlled by the photoelectric sensing module 11 during the transportation of the battery from the battery inlet to the battery outlet.

Both sides of the shell 21 are provided with transfer windows. The transfer window includes a battery inlet and a battery outlet. In this embodiment, the battery inlet side corresponds to the battery assembly line conveyor, and the battery inlet is provided with a conveying shaft 9. The battery outlet is provided with a conveying rotating shaft 9 and a support 22, the support 22 is provided with a conveying supporting plate, and the conveying supporting plate is positioned outside the shell 21. The conveying shaft 9 is provided to facilitate the track shoe 10 to convey the battery more smoothly and smoothly onto the conveying pallet. The carrying support plate is provided with a bulge so as to facilitate taking the battery.

In this embodiment, a supporting plate 20 is disposed on the outer periphery of the housing 21, and a fixed photo-sensing module 19 is mounted above the supporting plate 20. A digital control screen 5 is arranged in the middle of the walking frame 2. A manual controller 6 is arranged on the right side of the digital control screen 5. The same plane of the manual controller 6 is provided with an operation indicator lamp 7, and the operation indicator lamp 7 is displayed as a green time representing that the mechanism operates normally.

When the lifting mechanism is used, the running action program is set through the digital control screen 5, the lifting mechanism is moved to a proper position along the walking track 4 through the walking wheels 3, and then the lifting mechanism starts to work through the manual controller 6.

Firstly, the battery is driven to a battery inlet through a battery assembly line conveyor belt, the battery is moved through a conveying rotating shaft 9 by an external mechanical push rod and then is placed on the track shoe 10, and in the process, the second motor drives the track shoe 10 to rotate so that the battery can be placed above the track shoe 10 more quickly. Then, the manual controller 6 is pressed to execute a setting program, the first motor 8 starts to start to drive the first rotating shaft 14 to rotate, the driving gear 12 is driven by the first rotating shaft 14 to rotate, the lifting chain 13 meshed with the driving gear 12 is driven by the driving gear 12 to operate to drive the second rotating shaft 18 and the driven gear 17 to rotate, at the moment, the integral structure formed by the first baffle frame 24, the second baffle frame and the track shoe 10 drives the battery to ascend, when the photoelectric sensing module 11 senses that the set height is reached, the lifting chain 13 stops, the second motor drives the track shoe 10 to rotate, the battery on the track shoe is transported to a transport supporting plate after passing through the transport rotating shaft 9, at the moment, the transport lifting of a batch of batteries is completed, and then the manual controller 6 is pressed again to enable the integral structure formed by the first baffle frame 24, the second baffle frame and the track shoe 10 to execute descending operation, so that a new batch of batteries are transported.

The above-described embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, so that all equivalent changes or modifications of the structure, characteristics and principles described in the claims should be included in the scope of the present utility model.

Claims (10)

1. The utility model provides a battery transportation lifting mechanism that puts up, includes walking frame (2) and sets up the hoist mechanism in walking frame (2) one side, its characterized in that, the below of walking frame (2) sets up walking wheel (3), walking wheel (3) remove along walking track (4), hoist mechanism includes casing (21), upper portion in casing (21), lower part are provided with first pivot (14) and second pivot (18) respectively, first pivot (14) and second pivot (18) pass through gear and lift chain (13) transmission, and first pivot (14) are provided with track shoe (10) by first motor (8), the transfer window has been seted up to the both sides of hoist mechanism's casing (21).

2. The battery transport and loading lifting mechanism according to claim 1, wherein the walking frame (2) is trapezoid, and a hand rail (1) is arranged on one side of the walking frame (2) far away from the lifting mechanism.

3. The battery transfer and lifting mechanism according to claim 1, wherein two driving gears (12) are arranged on the first rotating shaft (14), two driven gears (17) are arranged on the second rotating shaft corresponding to the driving gears (12), and transmission is performed between the driving gears (12) and the driven gears (17) through a lifting chain (13).

4. The battery transfer upper frame lifting mechanism according to claim 1, wherein a first blocking frame (24) is fixedly arranged on the lifting chain (13), the first blocking frame (24) is fixedly connected with a second blocking frame, the second blocking frame is horizontally arranged, and a track shoe (10) is arranged on the second blocking frame.

5. A battery transfer upper rack lifting mechanism according to claim 4, wherein said lifting chain (13) is fixedly connected to the upper and lower parts of the first catch rack (24).

6. The battery transfer and lifting mechanism according to claim 4, wherein the second retainer is provided with a third rotating shaft at both ends, an internal gear (16) is provided on the third rotating shaft, and the track shoe (10) is provided on the outer periphery of the second retainer and is meshed with the internal gear (16).

7. A battery transfer and racking lifting mechanism according to claim 6, wherein the upper surface of said track shoe (10) is provided with protrusions.

8. The battery transport racking lifting mechanism of claim 1, wherein said transport window comprises a battery inlet and a battery outlet.

9. The battery transfer and lifting mechanism according to claim 8, wherein the battery inlet is provided with a transfer shaft (9), the battery outlet is provided with a transfer shaft (9) and a bracket (22), the bracket (22) is provided with a transfer pallet, and the transfer pallet is located outside the housing (21).

10. The battery transport racking lifting mechanism of claim 9, wherein said transport pallet is provided with protrusions.

Images