CN215971265U - Mobile energy storage equipment convenient for getting on and off - Google Patents

Abstract

The utility model provides a mobile energy storage device convenient for getting on and off a vehicle, which comprises a mobile energy storage device body, an auxiliary loading and unloading structure and a loading and unloading assembly, wherein the auxiliary loading and unloading structure is arranged between the tail end of a cargo carrying compartment of a transport vehicle and the ground when the mobile energy storage device body gets on and off the vehicle and is used for assisting the mobile energy storage device to get on and off the vehicle, and the loading and unloading assembly is connected between the mobile energy storage device body and the cargo carrying compartment when the mobile energy storage device body gets on and off the vehicle and is used for driving the mobile energy storage device body to slide in the cargo carrying compartment or on the auxiliary loading and unloading structure. According to the utility model, the loading and unloading of the mobile energy storage equipment body can be realized under the condition that a lifting tool vehicle is not required to be equipped through the auxiliary loading and unloading structure and the loading and unloading assembly connected between the mobile energy storage equipment body and the cargo carriage, so that the overall operation cost can be reduced, the application range of the mobile energy storage equipment is expanded, and the wheel rotation rate of a transport vehicle can be improved.

Description

Mobile energy storage equipment convenient for getting on and off

Technical Field

The utility model relates to the technical field of mobile energy storage equipment, in particular to mobile energy storage equipment convenient for getting on and off a bus.

Background

The mobile energy storage equipment is mostly applied to working environments (such as mountainous areas and other environments with inconvenient traffic and small places) such as emergency repair, construction power supply and temporary power supply. In the process of transporting the mobile energy storage equipment to a use site, the mobile energy storage equipment needs to be loaded firstly, and then the mobile energy storage equipment is transported to the use site for unloading, so that the lifting capacity and the lifting height of the portable lifting equipment which is convenient to carry along with the vehicle cannot meet the requirements of getting on or off the vehicle of the mobile energy storage equipment. Therefore, in the prior art, the mobile energy storage device usually uses a lifting tool car to get on or off the vehicle or uses a working mode of not getting off the vehicle.

If the mobile energy storage device is equipped with a lifting tool car such as a forklift or a loader to get on or off the vehicle, due to the limitation of the field environment (for example, environments such as mountainous areas with inconvenient traffic and small places), sometimes the situation that the lifting tool car and the mobile energy storage device transportation vehicle cannot be accommodated simultaneously on the field occurs, and the use of the lifting tool car such as the forklift additionally increases the operation cost.

In addition, if the mobile energy storage equipment is operated in a mode that the mobile energy storage equipment does not get off the vehicle to operate after arriving at the site, the transport vehicle of the mobile energy storage equipment is occupied, and then the wheel rotation rate of the transport vehicle is reduced and the operation cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide the mobile energy storage equipment which can realize getting on and off without using a lifting tool vehicle, thereby improving the wheel rotation rate of the transport vehicle and reducing the whole operation cost.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a remove energy storage equipment convenient to get on or off bus, includes the removal energy storage equipment body, sets up between the tail end of the carriage of carrying goods of haulage vehicle and ground and use the supplementary loading and unloading structure and the loading and unloading subassembly of assisting to get on or off bus when the removal energy storage equipment body gets on or off bus, the loading and unloading subassembly is connected between removal energy storage equipment body and the carriage of carrying goods and is used for driving the removal energy storage equipment body and slides in the carriage of carrying goods or on the supplementary loading and unloading structure when the removal energy storage equipment body gets on or off bus.

Specifically, the loading and unloading assembly comprises a winding wheel, a traction motor for driving the winding wheel to rotate, a rope pulley and a traction rope; the winding wheel and the traction motor are both arranged on the mobile energy storage equipment body; the rope wheel is arranged at the head end of the cargo carriage when the mobile energy storage equipment body is driven on and off; one end of the traction rope is wound on the winding wheel, and the other end of the traction rope bypasses the rope wheel and is fixedly connected to the mobile energy storage equipment body when the mobile energy storage equipment body gets on and off the vehicle.

Specifically, the loading and unloading assembly further comprises a thrust mechanism which is arranged at the head end of the cargo carrying carriage when the mobile energy storage equipment body gets off and is used for driving the mobile energy storage equipment body to slide from the cargo carrying carriage to the tail end of the cargo carrying carriage.

Specifically, the loading and unloading assembly further comprises a transmission and a controller; the speed changer is mounted on the mobile energy storage equipment body and connected between the traction motor and the winding wheel; the controller is arranged in the mobile energy storage device body; the mobile energy storage equipment body is respectively electrically connected with the traction motor, the speed changer and the controller, and the controller is in signal connection with the speed changer.

Specifically, the loading and unloading assembly comprises a pair of winding wheels, a pair of rope pulleys and a pair of traction ropes; the pair of winding wheels are respectively arranged at two ends of the transmission; the rope wheels are arranged at the head end of the cargo carriage when the mobile energy storage equipment body gets on or off the vehicle; and the pair of traction ropes are respectively arranged between the two groups of winding wheels and the rope wheel.

Specifically, the base comprises a pair of support legs arranged in parallel and a connecting plate connected with the pair of support legs, and the connecting plate is connected to the bottom of the energy storage cabinet.

The auxiliary loading and unloading structure comprises a pair of slide rails which are arranged in parallel and guide the pair of support legs, one end of each slide rail is connected to the tail end of the cargo carrying carriage, and the other end of each slide rail is connected with the ground; the sliding rail is provided with sliding grooves which enable the supporting legs to slide in and out of the sliding rail and penetrate through two ends of the sliding rail.

Specifically, the winding wheel, the traction motor and the speed changer are all arranged at the bottom of the connecting plate and are all arranged between the pair of support legs, and the speed changer is perpendicular to the pair of support legs.

Specifically, the energy storage cabinet and the base are connected through welding or connected with a nut through a bolt.

Specifically, the thrust mechanism comprises a telescopic cylinder; the fixed end of the telescopic cylinder is installed at the head end of the cargo carrying compartment when the mobile energy storage device body is unloaded, and the movable end of the telescopic cylinder is used for driving the mobile energy storage device body to slide to the tail end of the cargo carrying compartment from the cargo carrying compartment.

Compared with the prior art, the utility model has the advantages that:

1. through supplementary loading and unloading structure and connection remove the energy storage equipment body with between the carriage of carrying goods the loading and unloading subassembly just can realize under the condition that need not be equipped with the instrument car that lifts the getting on or off of removing the energy storage equipment body can not only reduce whole operation cost, enlarges the application scope of removing energy storage equipment, can also improve haulage vehicle's wheel rate.

2. After the movable energy storage device body on the transport vehicle is unloaded, the transport vehicle can also be used for loading and transporting other articles, so that the transport vehicle can have the advantages of strong strain capacity and high universality and economic benefit.

Drawings

FIG. 1 is a schematic front view of the present invention;

fig. 2 is a schematic top view of the present invention.

The reference numerals in the figures denote: 1. a mobile energy storage device body; 11. an energy storage cabinet; 12. a base; 121. a support leg; 122. a connecting plate; 2. a cargo carrying compartment; 3. an auxiliary loading and unloading structure; 31. a slide rail; 311. a chute; 4. assembling and disassembling the assembly; 41. a winding wheel; 42. a traction motor; 43. a sheave; 44. a hauling rope; 45. a thrust mechanism; 46. a transmission; 47. and a controller.

Detailed Description

The utility model will be described in further detail below with reference to the drawings and specific examples.

Referring to fig. 1 and 2, a mobile energy storage device convenient for getting on and off a vehicle includes a mobile energy storage device body 1, an auxiliary loading and unloading structure 3 disposed between the tail end of a cargo carrying compartment 2 of a transportation vehicle and the ground when the mobile energy storage device body 1 gets on or off the vehicle and used for assisting the mobile energy storage device body 1 to get on or off the vehicle, and a loading and unloading assembly 4, wherein the loading and unloading assembly 4 is connected between the mobile energy storage device body 1 and the cargo carrying compartment 2 when the mobile energy storage device body 1 gets on or off the vehicle and used for driving the mobile energy storage device body 1 to slide in the cargo carrying compartment 2 or on the auxiliary loading and unloading structure 3. Through supplementary loading and unloading structure 3 and connection remove energy storage equipment body 1 with between the carriage 2 loading and unloading subassembly 4 just can realize under the condition that need not be equipped with the lifting tool car the getting on and off of removing energy storage equipment body 1 can not only reduce whole operation cost, enlarges the application scope of removing energy storage equipment, can also improve haulage vehicle's rotation rate. In addition, after the mobile energy storage device body 1 on the transport vehicle is unloaded, the transport vehicle can also be used for loading and transporting other articles, so that the transport vehicle can have the advantages of strong strain capacity and high universality and economic benefit.

In this embodiment, the loading and unloading assembly 4 includes a winding wheel 41, a traction motor 42 for driving the winding wheel 41 to rotate, a rope wheel 43 and a traction rope 44; the winding wheel 41 and the traction motor 42 are both arranged on the mobile energy storage equipment body 1; the rope wheel 43 is arranged at the head end of the cargo carriage 2 when the mobile energy storage equipment body 1 gets on or off the vehicle; one end of the traction rope 44 is wound on the winding wheel 41, and the other end of the traction rope bypasses the rope wheel 43 and is fixedly connected to the mobile energy storage device body 1 when the mobile energy storage device body 1 gets on or off the vehicle. By the actions of the winding wheel 41, the traction motor 42, the sheave 43, and the traction rope 44, the portable energy storage device body 1 can be loaded from the ground through the auxiliary loading/unloading structure 3 as the traction rope 44 is shortened.

In this embodiment, the loading and unloading assembly 4 further includes a thrust mechanism 45 installed at the head end of the cargo carrying compartment 2 when the mobile energy storage device body 1 gets off the vehicle and used for driving the mobile energy storage device body 1 to slide from the cargo carrying compartment 2 to the tail end of the cargo carrying compartment 2. Through thrust mechanism 45 can make the removal energy storage equipment body 1 slide to the tail end of loading carriage 2 from loading carriage 2 to make the removal energy storage equipment body 1 can slide to ground through supplementary loading and unloading structure 3 under the effect of self gravity.

In this embodiment, the loading and unloading assembly 4 further comprises a transmission 46 and a controller 47; the transmission 46 is mounted on the mobile energy storage device body 1, and the transmission 46 is connected between the traction motor 42 and the take-up pulley 41; the controller 47 is arranged in the mobile energy storage device body 1; the mobile energy storage device body 1 is electrically connected with the traction motor 42, the transmission 46 and the controller 47, and the controller 47 is in signal connection with the transmission 46. In the process that the mobile energy storage device body 1 gets off along the auxiliary loading and unloading structure 3 under the action of self gravity, the controller 47 and the speed changer 46 can enable the rotation amount of the traction motor 42 to be the same as the release amount of the traction rope 44, so that tension is always present in the traction rope 44, and the mobile energy storage device body 1 can get off stably at a slow speed from the auxiliary loading and unloading structure 3.

In this embodiment, the handling assembly 4 comprises a pair of winding wheels 41, a pair of rope wheels 43 and a pair of traction ropes 44; a pair of the take-up wheels 41 are respectively arranged at two ends of the transmission 46; the rope wheels 43 are arranged at the head end of the cargo carriage 2 when the mobile energy storage device body 1 gets on or off the vehicle; a pair of the traction ropes 44 are respectively arranged between the two sets of winding wheels 41 and the rope wheel 43. Two points of the movable energy storage equipment body 1 can be applied with force through the two groups of winding wheels 41, rope wheels 43 and traction ropes 44, and the displacement of the movable energy storage equipment body 1 can be reduced.

In this embodiment, the base 12 includes a pair of legs 121 disposed side by side and a connecting plate 122 connecting the pair of legs 121, and the connecting plate 122 is connected to the bottom of the energy storage cabinet 11. The pair of the support legs 121 and the connecting plate 122 are used as the base 12 of the mobile energy storage device body 1, so that the overall weight can be reduced.

In this embodiment, the auxiliary loading and unloading structure 3 includes a pair of slide rails 31 arranged in parallel and guiding the pair of support legs 121, one end of each slide rail 31 is connected to the tail end of the cargo compartment 2, and the other end is connected to the ground; the slide rail 31 is provided with slide grooves 311 which are formed to penetrate both ends of the slide rail 31 so that the legs 121 can slide in and out of the slide rail 31. The track of getting on or off the mobile energy storage device body 1 can be prevented from deviating through the slide rail 31; in addition, because the slide rail 31 is arranged obliquely to the ground, the work required by the loading and unloading assembly 4 for moving the energy storage device body 1 to get on or off the vehicle can be reduced, and the effect of reducing loss is achieved.

In this embodiment, the winding wheel 41, the traction motor 42 and the transmission 46 are all mounted at the bottom of the connecting plate 122 and are all disposed between the pair of support legs 121, and the transmission 46 is disposed perpendicular to the pair of support legs 121. Through the arrangement mode, the two sides of the mobile energy storage equipment body 1 are uniformly stressed, the situation that the mobile energy storage equipment body 1 slides to one side or even overturns can be avoided, and the mobile precision and the safety are improved.

In this embodiment, the energy storage cabinet 11 and the connecting plate 122 are connected by welding or by bolts and nuts.

In this embodiment, the thrust mechanism 45 includes a telescopic cylinder; the stiff end of telescopic cylinder is installed at the head end of loading carriage 2 when removing energy storage equipment body 1 and is got off, and its expansion end is used for driving and removes energy storage equipment body 1 and slide to the tail end of loading carriage 2 from loading carriage 2.

The autonomous getting-on process of the mobile energy storage equipment body 1 is as follows:

referring to fig. 1, the traction motor 42 is rotated clockwise by the controller 47, so that the traction rope 44 is wound on the winding wheel 41, and the mobile energy storage device body 1 is driven to stably get on the truck from the ground along a slope track formed by a pair of slide rails 31, and after the mobile energy storage device body 1 reaches a designated position in the cargo compartment 2, the controller 47 stops the traction motor 42.

The process of the mobile energy storage equipment body 1 for automatically getting off the vehicle is as follows:

referring to fig. 1, the traction motor 42 is rotated in the counterclockwise direction by the controller 47, so that the traction rope 44 wound on the winding wheel 41 is released, and at this time, the traction rope 44 is not stressed and is in a free state, and the mobile energy storage device body 1 is pushed to the tail end of the cargo compartment 2 by the telescopic cylinder; in the process that the mobile energy storage device body 1 slides to the ground along the slide rail 31 under the action of self gravity, the controller 47 and the transmission 46 enable the rotation amount of the traction motor 42 to be the same as the release amount of the traction rope 44, so that tension is always kept in the traction rope 44, and the mobile energy storage device body 1 slowly and stably slides to the ground from the slide rail 31.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the utility model, using the teachings disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. The utility model provides a remove energy storage equipment convenient to get on or off bus which characterized in that: the energy storage device comprises a mobile energy storage device body (1), an auxiliary loading and unloading structure (3) and an loading and unloading assembly (4), wherein the auxiliary loading and unloading structure (3) is arranged between the tail end of a cargo carrying compartment (2) of a transport vehicle and the ground when the mobile energy storage device body (1) gets on or off the transport vehicle, and the loading and unloading assembly (4) is connected between the mobile energy storage device body (1) and the cargo carrying compartment (2) when the mobile energy storage device body (1) gets on or off the transport vehicle and is used for driving the mobile energy storage device body (1) to slide in the cargo carrying compartment (2) or on the auxiliary loading and unloading structure (3).

2. The mobile energy storage device for facilitating getting on and off of a vehicle according to claim 1, wherein the loading and unloading assembly (4) comprises a winding wheel (41), a traction motor (42) for driving the winding wheel (41) to rotate, a rope wheel (43) and a traction rope (44); the winding wheel (41) and the traction motor (42) are both arranged on the mobile energy storage equipment body (1); the rope wheel (43) is arranged at the head end of the cargo carriage (2) when the mobile energy storage equipment body (1) gets on or off the vehicle; one end of the traction rope (44) is wound on the winding wheel (41), and the other end of the traction rope bypasses the rope wheel (43) and is fixedly connected to the movable energy storage equipment body (1) when the movable energy storage equipment body (1) gets on and off.

3. The mobile energy storage device convenient for getting on and off the bus as claimed in claim 2, wherein the loading and unloading assembly (4) further comprises a thrust mechanism (45) installed at the head end of the cargo carrying compartment (2) when the mobile energy storage device body (1) gets off the bus and used for driving the mobile energy storage device body (1) to slide from the cargo carrying compartment (2) to the tail end of the cargo carrying compartment (2).

4. Mobile energy storage device facilitating the getting on and off of a vehicle according to claim 3, characterized in that the handling assembly (4) further comprises a transmission (46) and a controller (47); the speed changer (46) is mounted on the mobile energy storage device body (1), and the speed changer (46) is connected between the traction motor (42) and the winding wheel (41); the controller (47) is arranged in the mobile energy storage equipment body (1); the mobile energy storage device body (1) is respectively electrically connected with the traction motor (42), the speed changer (46) and the controller (47), and the controller (47) is in signal connection with the speed changer (46).

5. The mobile energy storage apparatus for facilitating getting on and off of claim 4, wherein the loading and unloading assembly (4) comprises a pair of winding wheels (41), a pair of rope wheels (43) and a pair of traction ropes (44); the pair of winding wheels (41) are respectively arranged at two ends of the transmission (46); the rope wheels (43) are arranged at the head end of the cargo carriage (2) when the mobile energy storage equipment body (1) gets on or off the vehicle; the pair of traction ropes (44) are respectively arranged between the two groups of winding wheels (41) and the rope wheel (43).

6. The mobile energy storage device convenient for getting on and off the bus according to claim 4 or 5, characterized in that the mobile energy storage device body (1) comprises an energy storage cabinet (11) and a base (12) installed at the bottom of the energy storage cabinet (11); the base (12) comprises a pair of support legs (121) arranged in parallel and a connecting plate (122) connected with the pair of support legs (121), and the connecting plate (122) is connected to the bottom of the energy storage cabinet (11).

7. The mobile energy storage device convenient for getting on and off the bus as claimed in claim 6, characterized in that the auxiliary loading and unloading structure (3) comprises a pair of slide rails (31) which are arranged side by side and guide the pair of support legs (121), one end of the slide rail (31) is connected with the tail end of the cargo carrying compartment (2), and the other end is connected with the ground; the sliding rail (31) is provided with sliding grooves (311) which enable the supporting feet (121) to slide in and out of the sliding rail (31) and penetrate through two ends of the sliding rail (31).

8. The mobile energy storage device for facilitating getting on and off of a vehicle according to claim 6, wherein the winding wheel (41), the traction motor (42) and the transmission (46) are all installed at the bottom of the connecting plate (122) and are all arranged between the pair of support legs (121), and the transmission (46) is arranged perpendicular to the pair of support legs (121).

9. The mobile energy storage device convenient for getting on and off the bus as claimed in claim 6, wherein the energy storage cabinet (11) and the base (12) are connected by welding or by bolts and nuts.

10. Mobile energy storage device facilitating the getting on and off of a vehicle according to any of claims 3 to 5, characterized in that the thrust mechanism (45) comprises a telescopic cylinder; the fixed end of the telescopic cylinder is installed at the head end of the cargo carrying carriage (2) when the movable energy storage device body (1) gets off the vehicle, and the movable end of the telescopic cylinder is used for driving the movable energy storage device body (1) to slide to the tail end of the cargo carrying carriage (2) from the cargo carrying carriage (2).

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