CN220553522U - Portable energy storage power station device - Google Patents

Abstract

The utility model discloses a movable energy storage power station device, which comprises a main body assembly, wherein the main body assembly comprises a machine body and a damping box; the outer side wall of the machine body is connected to the inner side wall of the shock absorption box in a sliding manner; a damping component is arranged in the damping box; according to the utility model, in the moving process, the machine body can extrude the hinging rod, the hinging rod drives the moving block to move, the moving block drives the sliding rod to slide in the sleeve, and extrude or stretch the first spring, so that a first-stage damping effect is achieved under the self elastic force of the first spring; meanwhile, the moving block drives the second hinging rod to move and rotate, the second hinging rod drives the square block to slide on the connecting rod, the square block stretches or extrudes the second spring, and the second-stage damping effect is achieved under the self elastic force of the second spring; the setting of attenuator has also improved the stability in the removal in-process and has played third level shock attenuation effect, and multistage shock attenuation buffering has guaranteed the stability of this device in the removal.

Description

Portable energy storage power station device

Technical field:

the utility model relates to the technical field of power grid regulation and control, in particular to a movable energy storage power station device.

The background technology is as follows:

the energy storage power station is a device system for circularly storing, converting and releasing electric energy through an electrochemical cell or an electromagnetic energy storage medium, and has the main function of adjusting peak-valley electricity utilization; the main storage means is: 1. pumping the water and storing the energy power station; 2. ultra-large battery packs;

the existing energy storage power station stores electric quantity through the high-density battery pack, so that the volume is large, the weight is heavy, the inertia is large, and the existing mobile energy storage power station device generally lacks damping facilities, so that the battery pack can be damaged due to jolt in the transportation process, and therefore, the mobile energy storage power station device is provided.

The utility model comprises the following steps:

the present utility model is directed to a mobile energy storage power station device, which solves one of the problems set forth in the background art.

The utility model is implemented by the following technical scheme: a movable energy storage power station device comprises a main body assembly, wherein the main body assembly comprises a machine body and a damping box;

the outer side wall of the machine body is connected to the inner side wall of the shock absorption box in a sliding manner;

the damping box is internally provided with a damping component, and the damping component comprises a first hinging rod, a moving block, two sliding rods, two first springs, two sleeves, a return block, a connecting rod, two square blocks, two second hinging rods and two second springs;

the first articulated rod of fixedly connected with between one side of movable block and the diapire of organism, the opposite side fixedly connected with two slide bars of movable block, return the diapire fixedly connected with of type piece in the interior bottom wall of shock attenuation case, return the lateral wall symmetry fixedly connected with two sleeve pipes of type piece, two slide bar sliding connection is in corresponding sleeve pipe, two fixedly connected with first spring between sleeve pipe and the movable block, two first spring overlaps respectively and locates the lateral wall that corresponds the slide bar, fixedly connected with connecting rod between the inner wall both sides of type piece returns, symmetrical sliding connection has two square on the connecting rod, return the equal fixedly connected with second spring between the inner wall both sides of type piece and the adjacent square, two equal movable sleeve of second spring locates the lateral wall of connecting rod, two equal fixedly connected with second articulated rod between square and the movable block.

As a further preferred aspect of the present utility model: the main body assembly further comprises universal wheels, a bracket and a battery pack; the inside equidistance of organism is installed the support, all placed the group battery on the support, the universal wheel is all installed in the diapire four corners of shock attenuation case.

As a further preferred aspect of the present utility model: the hydraulic press is all installed to the diapire four corners of shock attenuation case, telescopic link one end fixedly connected with stabilizer blade of hydraulic press, the back wall fixedly connected with switch group of organism, the electrical property output of switch group and the electrical property input electric connection of hydraulic press.

As a further preferred aspect of the present utility model: rectangular through holes are formed in the front wall of the machine body at equal intervals, and radiating windows are embedded in the rectangular through holes.

As a further preferred aspect of the present utility model: the number of the shock absorption components is eight, and the eight shock absorption components are arranged in the shock absorption boxes in a group of two.

As a further preferred aspect of the present utility model: the four sides of the bottom wall of the shock absorption box are fixedly provided with dampers, and the output ends of the four dampers are fixedly connected to the bottom wall of the machine body.

As a further preferred aspect of the present utility model: the rear wall of the shock absorption box is fixedly provided with an adjusting component, and the adjusting component comprises a U-shaped plate, a circular plate, a rotating shaft, a clamping groove, a clamping block, a third spring, a pull rod, a cavity and an armrest;

the U-shaped plate is welded on the rear wall of the shock absorption box, circular plates are fixedly connected to two sides of the inner wall of the U-shaped plate, clamping grooves are uniformly formed in the circular plates, two rotating shafts are connected between the circular plates, two ends of each rotating shaft are respectively and fixedly connected with rotating plates, a cavity is formed in each rotating plate, one end of each pull rod extends into the corresponding cavity and is fixedly connected with a clamping block, a third spring is fixedly connected between each clamping block and the rear wall of the corresponding cavity, the third spring is movably sleeved on the outer side wall of each pull rod, each clamping block is clamped in one clamping groove, and each outer side wall of each rotating shaft is fixedly connected with an armrest.

As a further preferred aspect of the present utility model: and a limiting ring is arranged in the cavity, and the outer side wall of the pull rod is connected to the inner side wall of the limiting ring in a sliding manner.

The utility model has the advantages that: according to the utility model, in the moving process, the machine body can extrude the hinging rod, the hinging rod drives the moving block to move, the moving block drives the sliding rod to slide in the sleeve, and extrude or stretch the first spring, so that a first-stage damping effect is achieved under the self elastic force of the first spring; meanwhile, the moving block drives the second hinging rod to move and rotate, the second hinging rod drives the square block to slide on the connecting rod, the square block stretches or extrudes the second spring, and the second-stage damping effect is achieved under the self elastic force of the second spring; the setting of attenuator has also improved the stability in the removal in-process and has played third level shock attenuation effect, and multistage shock attenuation buffering has guaranteed the stability of this device in the removal.

Description of the drawings:

in order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic cross-sectional view of the machine body of the present utility model;

FIG. 4 is a schematic view of the internal structure of the damper box according to the present utility model;

FIG. 5 is a schematic view of the structure of the area A in FIG. 4 according to the present utility model;

FIG. 6 is a schematic view of a combined structure of a rotating shaft and a circular plate according to the present utility model;

FIG. 7 is a schematic cross-sectional view of an adjustment assembly of the present utility model.

In the figure: 1. a body assembly; 2. a shock absorbing assembly; 3. an adjustment assembly;

10. a body; 11. a damper box; 12. a universal wheel; 13. a hydraulic press; 14. a support leg; 15. a switch group; 16. a bracket; 17. a battery pack; 18. a heat radiation window; 20. a damper; 21. a first hinge lever; 22. a moving block; 23. a slide bar; 24. a first spring; 25. a sleeve; 26. a loop-shaped block; 27. a connecting rod; 28. a square block; 29. a second hinge lever; 210. a second spring; 30. a U-shaped plate; 31. a circular plate; 32. a rotating plate; 33. a rotating shaft; 34. a clamping groove; 35. a clamping block; 36. a third spring; 37. a pull rod; 38. a cavity; 39. an armrest; 310. and a limiting ring.

The specific embodiment is as follows:

the following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1-7, the present utility model provides a technical solution: a movable energy storage power station device comprises a main body assembly 1, wherein the main body assembly 1 comprises a machine body 10 and a damping box 11;

the outer side wall of the machine body 10 is connected with the inner side wall of the shock absorption box 11 in a sliding manner;

the damping component 2 is arranged in the damping box 11, and the damping component 2 comprises a first hinging rod 21, a moving block 22, two sliding rods 23, two first springs 24, two sleeves 25, a square block 26, a connecting rod 27, two square blocks 28, two second hinging rods 29 and two second springs 210;

a first hinging rod 21 is fixedly connected between one side of the moving block 22 and the bottom wall of the machine body 10, two sliding rods 23 are fixedly connected to the other side of the moving block 22, the bottom wall of the return-type block 26 is fixedly connected to the inner bottom wall of the shock absorption box 11, two sleeves 25 are symmetrically and fixedly connected to the side wall of the return-type block 26, the two sliding rods 23 are slidably connected to the corresponding sleeves 25, a first spring 24 is fixedly connected between the two sleeves 25 and the moving block 22, the two first springs 24 are respectively sleeved on the outer side walls of the corresponding sliding rods 23, a connecting rod 27 is fixedly connected between the two sides of the inner wall of the return-type block 26, two square blocks 28 are symmetrically and slidably connected to the connecting rod 27, second springs 210 are fixedly connected between the two sides of the inner wall of the return-type block 26 and the adjacent square blocks 28, the two second springs 210 are movably sleeved on the outer side walls of the connecting rod 27, and a second hinging rod 29 is fixedly connected between the two square blocks 28 and the moving block 22.

In this embodiment, specific: the body assembly 1 further comprises a universal wheel 12, a bracket 16 and a battery pack 17; the inside equidistance of organism 10 is installed support 16, has all placed group battery 17 on the support 16, and universal wheel 12 is all installed in the diapire four corners of shock attenuation case 11, and universal wheel 12 plays the effect of assisting the removal of the utility model.

In this embodiment, specific: the hydraulic press 13 is installed at four corners of the bottom wall of the shock absorption box 11, one end of a telescopic rod of the hydraulic press 13 is fixedly connected with a supporting leg 14, the rear wall of the machine body 10 is fixedly connected with a switch group 15, the electrical output end of the switch group 15 is electrically connected with the electrical input end of the hydraulic press 13, and the hydraulic press 13 is controlled by the switch group 15 to extend the telescopic rod so that the support 16 contacts the ground to support the hydraulic press, so that the hydraulic press is fixed in position.

In this embodiment, specific: rectangular through holes are formed in the front wall of the machine body 10 at equal intervals, and radiating windows 18 are embedded in the rectangular through holes, so that ventilation of the interior of the machine body 10 is guaranteed, and the temperature of the interior is reduced.

In this embodiment, specific: the number of the shock absorbing assemblies 2 is eight, and the eight shock absorbing assemblies 2 are arranged in the shock absorbing box 11 in a group by group.

In this embodiment, specific: the dampers 20 are fixedly installed on four sides of the bottom wall of the shock absorption box 11, the output ends of the four dampers 20 are fixedly connected to the bottom wall of the machine body 10, and the dampers 20 play a role in supporting the machine body 10 and absorbing shock.

In this embodiment, specific: the rear wall of the shock absorption box 11 is fixedly provided with an adjusting component 3, and the adjusting component 3 comprises a U-shaped plate 30, a circular plate 31, a rotating plate 32, a rotating shaft 33, a clamping groove 34, a clamping block 35, a third spring 36, a pull rod 37, a cavity 38 and an armrest 39;

u-shaped plate 30 welds in the back wall of damper 11, the equal fixedly connected with plectane 31 of inner wall both sides of U-shaped plate 30, evenly seted up draw-in groove 34 on plectane 31, rotationally be connected with pivot 33 between two plectanes 31, the both ends of pivot 33 are fixedly connected with commentaries on classics board 32 respectively, cavity 38 has been seted up to commentaries on classics board 32, the one end of pull rod 37 extends to cavity 38 in and fixedly connected with fixture block 35, fixedly connected with third spring 36 between the back wall of fixture block 35 and cavity 38, the activity of third spring 36 cup joints in the lateral wall of pull rod 37, fixture block 35 joint is in a draw-in groove 34, the lateral wall fixedly connected with handrail 39 of pivot 33, when needing the angle regulation, outwards pull rod 37 pulls fixture block 35 break away from draw-in groove 34, rotate pivot 33 makes handrail 39 rotate to a suitable angle, then loosen pull rod 37, under the effect of third spring 36 elasticity, push out fixture block 35 cavity 38 and joint in the draw-in groove 34 of corresponding position, thereby fix the handrail 39 angle.

In this embodiment, specific: a limiting ring 310 is arranged in the cavity 38, the outer side wall of the pull rod 37 is slidably connected to the inner side wall of the limiting ring 310, and the limiting ring 310 limits the moving range of the clamping block 35.

When the device is used, according to different requirements of a user, the pull rod 37 can be pulled outwards, the pull rod 37 drives the clamping block 35 to be separated from the clamping groove 34, the rotating shaft 33 is rotated to enable the armrest 39 to rotate to a proper angle, then the pull rod 37 is loosened, and under the action of the elastic force of the third spring 36, the clamping block 35 is ejected out of the cavity 38 and clamped into the clamping groove 34 at a corresponding position, so that the angle of the armrest 39 is fixed;

when a user pushes the utility model to move, if jolt occurs due to uneven road surface, the machine body 10 can squeeze the first hinging rod 21, the first hinging rod 21 drives the moving block 22 to move, the moving block 22 drives the sliding rod 23 to slide in the sleeve 25 and squeeze or stretch the first spring 24, and the first-stage damping effect is achieved under the self elastic force of the first spring 24; meanwhile, the moving block 22 drives the second hinging rod 29 to move and rotate, the second hinging rod 29 drives the square block 28 to slide on the connecting rod 27, the square block 28 stretches or extrudes the second spring 210, and a second-stage damping effect is achieved under the self elastic force of the second spring 210; the arrangement of the damper 20 also improves the stability in the moving process and plays a role in third-stage shock absorption, and the multistage shock absorption and buffering ensure the stability of the device in the moving process;

after moving to the appointed place, the hydraulic press 13 is controlled by the switch group 15 to extend the telescopic rod so that the bracket 16 contacts the ground to support the utility model, thereby fixing the position.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The mobile energy storage power station device is characterized by comprising a main body assembly (1), wherein the main body assembly (1) comprises a machine body (10) and a damping box (11);

the outer side wall of the machine body (10) is connected to the inner side wall of the shock absorption box (11) in a sliding manner;

the damping box is characterized in that a damping component (2) is arranged in the damping box (11), and the damping component (2) comprises a first hinging rod (21), a moving block (22), two sliding rods (23), two first springs (24), two sleeves (25), a return block (26), a connecting rod (27), two square blocks (28), two second hinging rods (29) and two second springs (210);

the novel movable hinge comprises a movable block (22), a first hinging rod (21) is fixedly connected between one side of the movable block (22) and the bottom wall of a machine body (10), two sliding rods (23) are fixedly connected to the other side of the movable block (22), the bottom wall of a return-type block (26) is fixedly connected to the inner bottom wall of a shock absorption box (11), two sleeves (25) are symmetrically and fixedly connected to the side wall of the return-type block (26), two sliding rods (23) are slidably connected to the corresponding sleeves (25), a first spring (24) is fixedly connected between each sleeve (25) and the movable block (22), two first springs (24) are respectively sleeved on the outer side wall of the corresponding sliding rod (23), a connecting rod (27) is fixedly connected between the two sides of the inner wall of the return-type block (26), two springs (210) are fixedly connected between the two sides of the inner wall of the return-type block (26) and the adjacent blocks (28), and two hinging rods (29) are fixedly connected between the two movable sleeves (27).

2. A mobile energy storage power station device according to claim 1, characterized in that the body assembly (1) further comprises a universal wheel (12), a bracket (16) and a battery pack (17); the novel shock absorber is characterized in that brackets (16) are arranged in the machine body (10) at equal intervals, battery packs (17) are arranged on the brackets (16), and universal wheels (12) are arranged at four corners of the bottom wall of the shock absorber box (11).

3. The mobile energy storage power station device according to claim 1, wherein hydraulic presses (13) are installed at four corners of the bottom wall of the shock absorption box (11), one end of a telescopic rod of each hydraulic press (13) is fixedly connected with a support leg (14), the rear wall of the machine body (10) is fixedly connected with a switch group (15), and an electrical output end of each switch group (15) is electrically connected with an electrical input end of each hydraulic press (13).

4. A mobile energy storage power station device as claimed in claim 1, characterized in that the front wall of the machine body (10) is provided with rectangular through holes at equal intervals, and the rectangular through holes are internally embedded with radiating windows (18).

5. A mobile energy storage power station device according to claim 1, characterized in that the number of damper assemblies (2) is eight, eight damper assemblies (2) being arranged in groups of damper boxes (11).

6. The mobile energy storage power station device according to claim 1, wherein dampers (20) are fixedly installed on four sides of the bottom wall of the shock absorption box (11), and output ends of the four dampers (20) are fixedly connected to the bottom wall of the machine body (10).

7. The mobile energy storage power station device according to claim 1, wherein an adjusting component (3) is fixedly installed on the rear wall of the shock absorption box (11), and the adjusting component (3) comprises a U-shaped plate (30), a circular plate (31), a rotating plate (32), a rotating shaft (33), a clamping groove (34), a clamping block (35), a third spring (36), a pull rod (37), a cavity (38) and an armrest (39);

u template (30) weld in the back wall of damper (11), all fixedly connected with plectane (31) of the inner wall both sides of U template (30), draw-in groove (34) have evenly been seted up on plectane (31), two rotate between plectane (31) and be connected with pivot (33), the both ends of pivot (33) are fixedly connected with revolving plate (32) respectively, cavity (38) have been seted up to revolving plate (32), in the one end of pull rod (37) extends to cavity (38) and fixedly connected with fixture block (35), fixedly connected with third spring (36) between the back wall of fixture block (35) and cavity (38), third spring (36) activity cup joint in the lateral wall of pull rod (37), fixture block (35) joint is in a draw-in groove (34), the lateral wall fixedly connected with handrail (39) of pivot (33).

8. The mobile energy storage power station apparatus as claimed in claim 7, wherein a stop collar (310) is disposed in the cavity (38), and an outer sidewall of the pull rod (37) is slidably connected to an inner sidewall of the stop collar (310).