CN114362478A - Energy storage converter suitable for container energy storage - Google Patents

Abstract

The invention discloses an energy storage converter suitable for energy storage of a container, which belongs to the field of energy storage converters, and particularly relates to an energy storage converter suitable for energy storage of a container, which comprises a container shell and a fixed groove, wherein a heat dissipation base and a guide plate are fixedly welded in the container shell, an energy storage converter body is arranged in the container shell, a positioning and mounting assembly is arranged in the heat dissipation base, a clamping and protecting assembly is arranged in the container shell, a hydraulic cylinder is fixedly arranged in the fixed groove through a bolt, the output end of the hydraulic cylinder is connected with a hydraulic rod, the top end of the hydraulic rod is fixedly welded with a push plate, and a small ball is rotatably connected on the push plate, so that the problem that the conventional energy storage converter cannot be conveniently and safely positioned, mounted, dismounted and separated from the container in the working process, and further cannot ensure the safety of the energy storage converter in the working state of the container is solved, meanwhile, the convenience of subsequent overhaul and maintenance work of the energy storage converter cannot be guaranteed.

Description

Energy storage converter suitable for container energy storage

Technical Field

The invention relates to the field of energy storage converters, in particular to an energy storage converter suitable for energy storage of a container.

Background

The large-scale electrochemical energy storage system has the functions of quick and bidirectional power regulation, is one of effective facilities and key modes for stable operation of a power grid and improvement of the flexibility regulation capacity of the power grid, particularly has important functions on large-scale power generation grid connection of wind power with high permeability and new photoelectric energy power and the safety of a sending end and a receiving end of a high-voltage power transmission channel, has important and irreplaceable functions on smooth support of the power and widening of the utilization rate of the power transmission channel, is convenient and quick to install on site by adopting a container energy storage system in the application process, is one of main modes for storage battery energy storage application, and in the container energy storage system, an energy storage converter is an important component, and some energy storage converters have some problems in the working process:

for example, an energy storage converter suitable for energy storage of a container with publication number CN111969834A "mainly includes: the energy storage converter is characterized in that a converter cabinet body (1), a rear ventilation opening (2) at the lower end of the converter cabinet body, a detachable cover plate (3) at the rear side of the lower end of the converter cabinet body, a detachable cover plate clamping position (4) at the rear side of the lower end of the converter cabinet body, a detachable cover plate clamping position (5) at the lower end of the converter cabinet body, a detachable filter screen (6) at the ventilation opening, a detachable filter screen clamping position (7) at the ventilation opening, a detachable filter screen fixing clamping position (8) at the ventilation opening, a top exhaust opening and exhaust fan (9) …, and the detachable cover plate (3) at the rear side of the lower end of the converter cabinet body are arranged outside the detachable filter screen (6) at the ventilation opening through the detachable cover plate clamping position (4) at the rear side of the lower end of the converter cabinet body and the detachable cover plate clamping position (5) at the lower end of the converter cabinet body, and the energy storage converter is provided with ventilation openings corresponding to air inlets, and can carry out stable cooling and heat dissipation work on the energy storage converter, however, in the working process, the energy storage converter cannot be conveniently and safely positioned, installed and detached from the container, so that the safety of the working state of the energy storage converter in the container cannot be guaranteed, the convenience of the follow-up overhaul and maintenance work of the energy storage converter cannot be guaranteed, the practicability is poor, and therefore the requirement that the energy storage converter suitable for the energy storage of the container meets users needs to be provided.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments, and in this section as well as in the abstract and the title of the invention of this application some simplifications or omissions may be made to avoid obscuring the purpose of this section, the abstract and the title of the invention, and such simplifications or omissions are not intended to limit the scope of the invention.

The invention provides the energy storage converter for the container, which solves the problems existing in the existing energy storage converter suitable for energy storage of the container.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions: the utility model provides an energy storage converter suitable for container energy storage, includes container shell and fixed slot, welded fastening has heat dissipation base and deflector in the container shell, the side end face screw connection of deflector is on the side end face of heat dissipation base, be provided with the energy storage converter body in the container shell, the universal wheel is installed to the bolt on the bottom face of energy storage converter body, install location installation component in the heat dissipation base, install centre gripping protection component in the container shell, the bolt is fixed with the pneumatic cylinder in the fixed slot, the output of pneumatic cylinder is connected with the hydraulic stem, the top welded fastening of hydraulic stem has the slurcam, it is connected with small-size ball to rotate on the slurcam, install heat dissipation protection component on the container shell.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the transversal right triangle of personally submitting of deflector, the top face parallel and level of the top face of deflector and heat dissipation base, the width of heat dissipation base equals with the width of deflector, the bottom middle part at the slurcam is fixed to the hydraulic stem, small-size ball equidistance distributes on the slurcam, the height that highly is greater than the slurcam top face of small-size ball top face.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the locating and mounting assembly comprises a locating groove, the locating groove and a fixing groove are arranged on the heat dissipation base, a sliding plate is connected to the inside of the locating groove in a limiting and sliding mode, a buffer spring is fixed to the bottom end face of the sliding plate in a welding mode, the bottom end of the buffer spring is fixed to the inside bottom end face of the locating groove in a welding mode, a linking frame is fixed to the sliding plate in a welding mode, a connecting rod is fixed to the linking frame in a welding mode, a top end screw of the connecting rod is connected with a first rubber piston, the first rubber piston is connected to the first connecting pipe in a limiting and sliding mode, a rubber sucker is connected to the top end of the first connecting pipe through a bolt, a sealing ring is connected to the bottom end screw of the first connecting pipe, and the connecting rod is connected to the sealing ring in a sealing and sliding mode.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the positioning grooves are distributed on the heat dissipation base at equal angles, the positioning grooves correspond to the sliding plate and the universal wheels one to one, the side end face of the sliding plate is attached to the inner wall of the positioning grooves, the rubber suckers are distributed on the top end of the first connecting pipe at equal intervals, the height of the top end face of each rubber sucker is larger than that of the top end face of the heat dissipation base, the inner wall of the first connecting pipe is attached to the side end face of the first rubber piston, and the first connecting pipes are symmetrically distributed on two sides of the heat dissipation base.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the centre gripping protection component includes the conveyer pipe, the top bolted connection of conveyer pipe has the second connecting pipe, second connecting pipe welded fastening is in container shell, the second connecting pipe is connected through the conveyer pipe and the first connecting pipe in the location installation component, spacing sliding connection has second rubber piston in the second connecting pipe, the screw connection has the catch bar on the second rubber piston, the other end welded fastening of catch bar has the grip block, the screw connection has the rubber slab on the grip block.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the inner wall of the second connecting pipe is attached to the side end face of the second rubber piston, the central axis of the second rubber piston and the central axis of the push rod are located on the same horizontal central line, the push rod is fixed in the middle of the clamping plate, and the length and the width of the clamping plate are respectively equal to those of the rubber plate.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the heat dissipation protection component comprises a dragging rope, one end of the dragging rope is bolted to a sliding plate, the dragging rope is connected to a guide wheel in a limiting sliding mode, the guide wheel is installed in a heat dissipation base through bolts, the other end of the dragging rope is wound on a fixed coil, the fixed coil, a circular gear and a connecting scraping rod are welded and fixed on a rotating shaft, and the rotating shaft is connected to a filter screen plate in a rotating mode.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the filter screen plate is connected to a container shell through screws, a gear rod is connected to the circular gear in a meshed mode, a protective baffle is fixedly welded to the gear rod, the protective baffle is connected to the container shell in a limiting sliding mode, a rubber rod is connected to the protective baffle through screws, the other end of the rubber rod is connected to the container shell through screws, and a groove is formed in the protective baffle.

As a preferred scheme of the energy storage converter suitable for energy storage of the container, the energy storage converter comprises: the outer end face of the filter screen plate is attached to the inner end face of the connecting scraping rod, the connecting scraping rod is distributed on the rotating shaft at equal angles, the length of the connecting scraping rod is larger than the diameter of the filter screen plate, the inner end face of the filter screen plate is attached to the outer end face of the protective baffle, the protective baffle is semicircular, the protective baffle is symmetrically distributed on two sides of the filter screen plate, and the diameter of the filter screen plate is smaller than the diameter of the protective baffle.

Compared with the prior art, the invention has the beneficial effects that:

1. be provided with location installation component, the energy storage converter body is through in corresponding constant head tank with each universal wheel propelling movement to heat dissipation base, and then can carry out stable location work to the energy storage converter body, meanwhile, the energy storage converter body can promote the sliding plate downstream through the universal wheel, the sliding plate can drive first rubber piston downstream in first connecting pipe through linking up the frame and connecting rod this moment, combine each rubber suction cup to carry out the fixed work of automatic stabilization's absorption to the energy storage converter body, and then can guarantee the stability and the convenience of energy storage converter body location installation work.

2. Be provided with centre gripping protection component, first rubber piston can pass through the conveyer pipe with the air in the first connecting pipe to carry to the second connecting pipe in the time of the downstream in first connecting pipe, this moment under the atmospheric pressure effect, the grip block that can drive on the catch bar through second rubber piston carries out automatic stabilization's centre gripping fixed work to the energy storage converter body, combine the rubber slab can further improve the installation stability and the security of energy storage converter body, and then can effectively avoid the working process of energy storage converter body to take place offset or rock, the work security and the stability of energy storage converter body have been increased.

3. The heat dissipation protection component is arranged, the sliding plate can drive the dragging rope to move downwards while moving downwards, at the moment, the rubber rod can drive the protection baffles at the two sides to move outwards and separate from the filter screen plate simultaneously, meanwhile, the gear tooth rod can drive the connecting scraping rod through the circular gear to automatically scrape and clean the dust and impurities adsorbed on the outer end face of the filter screen plate, so as to ensure the stability of the subsequent heat dissipation work of the energy storage converter body, and in the same way, after the energy storage converter body is detached from the sliding plate, the dragging rope moves upwards, the protection baffles at the two sides can be driven to move towards the middle simultaneously by combining the circular gear and the gear tooth rod, and then can carry out stable closed protection work to filter plate to can effectively avoid filter plate to adsorb a large amount of dust and impurity and lead to blockking up at idle in-process, increase the use variety and the stability of device.

4. Be provided with the slurcam, the pneumatic cylinder utilizes the slurcam on the hydraulic stem can drive the energy storage converter body and carry out convenient stable work of taking off and land, combines small-size ball can guarantee the follow-up location installation of energy storage converter body and dismantle stable and convenient of work, has effectively improved the work efficiency of device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a schematic perspective view of a heat dissipation base of an energy storage converter suitable for energy storage of a container according to the present invention;

fig. 2 is a schematic perspective view of a first connection pipe of an energy storage converter suitable for storing energy in a container according to the present invention;

FIG. 3 is a schematic perspective view of an energy storage converter connecting scraping rod suitable for storing energy in a container according to the present invention;

FIG. 4 is a schematic diagram of an overall front view of an energy storage converter suitable for storing energy in a container according to the present invention;

FIG. 5 is a schematic diagram of an energy storage converter suitable for storing energy in a container shown at A in FIG. 4;

FIG. 6 is a schematic diagram of an energy storage converter suitable for storing energy in a container shown at B in FIG. 4;

FIG. 7 is a schematic diagram of a top view of a delivery pipe of an energy storage converter suitable for storing energy in a container according to the present invention;

FIG. 8 is a schematic side view of a guide wheel of an energy storage converter suitable for storing energy in a container according to the present invention;

fig. 9 is a schematic structural diagram of a protective baffle of an energy storage converter suitable for energy storage of a container.

Reference numbers in the figures: 1. a container housing; 2. a heat dissipation base; 3. a guide plate; 4. an energy storage converter body; 5. a universal wheel; 6. positioning the mounting assembly; 601. positioning a groove; 602. a sliding plate; 603. a buffer spring; 604. a linking frame; 605. a connecting rod; 606. a first rubber piston; 607. a first connecting pipe; 608. a rubber suction cup; 609. a seal ring; 7. clamping the protection component; 701. a delivery pipe; 702. a second connecting pipe; 703. a second rubber piston; 704. a push rod; 705. a clamping plate; 706. a rubber plate; 8. fixing grooves; 9. a hydraulic cylinder; 10. a hydraulic lever; 11. a push plate; 12. a small ball; 13. a heat dissipation protection component; 1301. pulling the rope; 1302. a guide wheel; 1303. fixing the coil; 1304. a rotating shaft; 1305. a circular gear; 1306. a pinion rod; 1307. a protective baffle; 1308. a rubber rod; 1309. a filter screen plate; 1310. connecting the scraping rod; 14. and (4) a groove.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, wherein for convenience of illustration, the cross-sectional view of the device structure is not enlarged partially according to the general scale, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Examples

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-9, an energy storage converter suitable for energy storage of a container comprises a container shell 1 and a fixing groove 8, a heat dissipation base 2 and a guide plate 3 are welded and fixed in the container shell 1, a side end face of the guide plate 3 is connected to a side end face of the heat dissipation base 2 through screws, an energy storage converter body 4 is arranged in the container shell 1, universal wheels 5 are mounted on a bottom end face of the energy storage converter body 4 through bolts, a positioning and mounting assembly 6 is mounted in the heat dissipation base 2, a clamping and protecting assembly 7 is mounted in the container shell 1, a hydraulic cylinder 9 is fixed to the bolts in the fixing groove 8, an output end of the hydraulic cylinder 9 is connected with a hydraulic rod 10, a push plate 11 is welded and fixed at the top end of the hydraulic rod 10, a small ball 12 is connected to the push plate 11 in a rotating manner, and a heat dissipation and protecting assembly 13 is mounted on the container shell 1.

The energy storage converter body 4 can be conveniently and stably positioned, installed and disassembled by utilizing the pushing plate 11 on the hydraulic rod 10 and the positioning and installing assembly 6 on the heat dissipation base 2, the clamping protection assembly 7 and the heat dissipation protection assembly 13 can be driven simultaneously when the positioning and installing assembly 6 works, and then the installation stability and the heat dissipation stability of the energy storage converter body 4 can be further improved.

In this example, the cross section of the guide plate 3 is a right triangle, the top end face of the guide plate 3 is flush with the top end face of the heat dissipation base 2, the width of the heat dissipation base 2 is equal to the width of the guide plate 3, the hydraulic rod 10 is fixed at the middle part of the bottom of the push plate 11, the small balls 12 are distributed on the push plate 11 at equal intervals, and the height of the top end face of the small balls 12 is greater than that of the top end face of the push plate 11.

The stability of the working state of the small balls 12 on the push plate 11 is ensured, and the convenience of the subsequent mounting and dismounting work of the energy storage converter body 4 can be further ensured.

In this example, the positioning and mounting assembly 6 includes a positioning groove 601, the positioning groove 601 and the fixing groove 8 are both disposed on the heat dissipation base 2, a sliding plate 602 is connected to the positioning groove 601 in a limiting and sliding manner, a buffer spring 603 is fixed to the bottom end face of the sliding plate 602 in a welding manner, the bottom end of the buffer spring 603 is fixed to the inner bottom end face of the positioning groove 601 in a welding manner, a linking frame 604 is fixed to the sliding plate 602 in a welding manner, the linking frame 604 is connected to the heat dissipation base 2 in a limiting and sliding manner, a connecting rod 605 is fixed to the linking frame 604 in a welding manner, a top end screw of the connecting rod 605 is connected to a first rubber piston 606 in a limiting and sliding manner, a top end bolt of the first connecting pipe 607 is connected to a rubber suction cup 608, a bottom end screw of the first connecting pipe 607 is connected to a sealing ring 609, and the connecting rod 605 is connected to the sealing and sliding manner in the sealing ring 609.

The sealing stability of the sliding work of the connecting rod 605 can be ensured by utilizing the sealing ring 609, so that the stability of the subsequent adsorption work of the rubber sucker 608 can be ensured, and the installation stability of the energy storage converter body 4 is improved.

In this example, the positioning grooves 601 are distributed on the heat dissipation base 2 at equal angles, the positioning grooves 601 correspond to the sliding plate 602 and the universal wheel 5 one by one, the side end surface of the sliding plate 602 is attached to the inner wall of the positioning groove 601, the rubber suction cups 608 are distributed at the top end of the first connecting pipe 607 at equal intervals, the height of the top end surface of the rubber suction cups 608 is greater than that of the top end surface of the heat dissipation base 2, the inner wall of the first connecting pipe 607 is attached to the side end surface of the first rubber piston 606, and the first connecting pipes 607 are symmetrically distributed on two sides of the heat dissipation base 2.

The stability of the working state of the rubber suction cup 608 on the heat dissipation base 2 is ensured, and then the stability of the attaching state between the energy storage converter body 4 and the rubber suction cup 608 can be ensured, and further the stability of the whole subsequent installation of the energy storage converter body 4 can be ensured.

In this example, the clamping protection assembly 7 includes a delivery pipe 701, a second connection pipe 702 is bolted to the top end of the delivery pipe 701, the second connection pipe 702 is welded and fixed in the container housing 1, the second connection pipe 702 is connected with a first connection pipe 607 in the positioning and mounting assembly 6 through the delivery pipe 701, a second rubber piston 703 is connected in the second connection pipe 702 in a limiting and sliding manner, a push rod 704 is connected to the second rubber piston 703 through a screw, a clamping plate 705 is welded and fixed to the other end of the push rod 704, and a rubber plate 706 is connected to the clamping plate 705 through a screw; the stability of the working state of the rubber plate 706 on the clamping plate 705 is ensured, and the stability and the safety of the subsequent clamping protection work of the energy storage converter body 4 can be further ensured.

In this example, the inner wall of the second connection pipe 702 is attached to the side end surface of the second rubber piston 703, the central axis of the second rubber piston 703 and the central axis of the push rod 704 are located on the same horizontal central line, the push rod 704 is fixed at the middle part of the clamping plate 705, and the length and the width of the clamping plate 705 are respectively equal to the length and the width of the rubber plate 706; the adverse effect of the second rubber piston 703 on the push rod 704 is effectively avoided, and the stability of the subsequent motion state of the clamping plate 705 can be further ensured.

In this example, the heat dissipation protection component 13 includes the rope 1301, the one end bolt of the rope 1301 is on sliding plate 602, the spacing sliding connection of the rope 1301 is on leading wheel 1302, leading wheel 1302 bolt installation is in heat dissipation base 2, the other end of the rope 1301 twines on fixed coil 1303, circular gear 1305 and connection scraping rod 1310 are all welded fastening on axis of rotation 1304, axis of rotation 1304 rotates and connects on filter plate 1309, can guarantee to connect the stability of the follow-up rotation work of scraping rod 1310, and then can guarantee the automatic stability of the follow-up cleaning work of dust and impurity of filter plate 1309.

In this example, the filter screen plate 1309 is screwed on the container housing 1, the circular gear 1305 is engaged and connected with the gear rack 1306, the gear rack 1306 is welded and fixed with the guard baffle 1307, the guard baffle 1307 is limited and slidably connected on the container housing 1, the guard baffle 1307 is screwed with the rubber rod 1308, the other end of the rubber rod 1308 is screwed on the container housing 1, and the guard baffle 1307 is provided with the groove 14.

The groove 14 can effectively avoid the adverse effect of the rotating shaft 1304 on the closing of the two side protective baffles 1307, thereby ensuring the stability and safety of the subsequent closing protection work of the filter screen plate 1309.

In this example, the outer end face of the filter screen plate 1309 is attached to the inner end face of the connecting scraping rod 1310, the connecting scraping rod 1310 is distributed on the rotating shaft 1304 at equal angles, the length of the connecting scraping rod 1310 is greater than the diameter of the filter screen plate 1309, the inner end face of the filter screen plate 1309 is attached to the outer end face of the protective baffle 1307, the protective baffle 1307 is semicircular, the protective baffle 1307 is symmetrically distributed on two sides of the filter screen plate 1309, the diameter of the filter screen plate 1309 is smaller than the diameter of the protective baffle 1307, it can be ensured that the protective baffle 1307 can perform stable closed protection work on the filter screen plate 1309, and further a large amount of dust and impurities can be effectively prevented from being adsorbed and accumulated on the filter screen plate 1309 in an idle state.

It should be noted that, the present invention is an energy storage converter suitable for energy storage of a container, firstly, an operator can push an energy storage converter body 4 to move into a container shell 1 by using a universal wheel 5, at this time, under the guiding action of a guide plate 3, the energy storage converter body 4 can stably move onto a heat dissipation base 2 through the universal wheel 5, at this time, the operator can control to open a hydraulic cylinder 9 in a fixed groove 8, the hydraulic cylinder 9 can drive a push plate 11 to move upwards through a hydraulic rod 10 to be flush with the bottom end face of the energy storage converter body 4, at this time, the stability of the movement state of the energy storage converter body 4 on the heat dissipation base 2 can be ensured under the action of a small ball 12, until each universal wheel 5 of the energy storage converter body 4 moving to the bottom corresponds to each positioning groove 601 on the heat dissipation base 2, at this time, the operator can control to open the hydraulic cylinder 9 in the fixed groove 8, the hydraulic cylinder 9 can drive the pushing plate 11 to move downwards to be separated from the energy storage converter body 4 through the hydraulic rod 10, at the moment, the universal wheel 5 can drive the sliding plate 602 in the positioning groove 601 to move downwards stably under the action of gravity of the energy storage converter body 4, and stable buffering protection work can be carried out on the energy storage converter body 4 by combining the buffer spring 603.

And in the motion process of the sliding plate 602, the first rubber piston 606 on the connecting rod 605 can be driven by the connecting frame 604 to stably move downwards in the first connecting pipe 607, at this time, the connecting rod 605 is combined with the sealing ring 609 to ensure the sealing stability of the sliding state, and in the motion process of the first rubber piston 606, the air in the rubber suction cup 608 can be automatically extracted through the first connecting pipe 607, at this time, negative pressure is formed inside the rubber suction cup 608, and then the bottom end face of the energy storage converter body 4 can be adsorbed and fixed, so that the stability and convenience of the positioning and installation work of the energy storage converter body 4 can be ensured, and at this time, the energy storage converter body 4 is combined with a large-scale storage battery energy storage system and a container energy storage system to perform stable energy storage and conversion work.

When the first rubber piston 606 moves downwards in the first connecting pipe 607, the first rubber piston 606 can convey air in the first connecting pipe 607 into the second connecting pipe 702 through the conveying pipe 701, at this time, the second rubber piston 703 can be pushed to move outwards in the second connecting pipe 702 under the action of air pressure, at this time, the second connecting pipes 702 on the two sides can drive the clamping plates 705 on the pushing rods 704 on the two sides to move towards the middle simultaneously by combining with the corresponding second rubber piston 703, and then the energy storage converter body 4 can be clamped and fixed automatically and stably, at this time, the clamping plates 705 on the two sides can further improve the clamping stability and safety of the energy storage converter body 4 by combining with the corresponding rubber plates 706, and further, the position deviation or the shaking in the working process of the energy storage converter body 4 can be effectively avoided.

And can drive the rope 1301 that pulls on the leading wheel 1302 steady motion downwards when sliding plate 602 moves downwards, the traction force of pulling the rope 1301 disappears this moment, the rubber pole 1308 at both sides can drive corresponding guard flap 1307 simultaneously to both sides motion and break away from filter plate 1309, filter plate 1309 is stably opened this moment, and in the time of guard flap 1307 motion, can drive circular gear 1305 through teeth of a cogwheel pole 1306 and carry out stable meshing rotation, and then can drive the connection on the axis of rotation 1304 and scrape the pole 1310 and rotate steadily, can carry out the automatic cleaning work of scraping with adsorbed dust and impurity on the outer terminal surface of filter plate 1309 under the rotation effect of connecting scraping pole 1310 this moment, and then can guarantee the stability of the follow-up heat dissipation work of energy storage converter body 4.

When the energy storage converter body 4 needs to be disassembled, overhauled or maintained, a worker can open the hydraulic cylinder 9 in the fixed groove 8 by controlling, at the moment, the hydraulic cylinder 9 can drive the pushing plate 11 to move upwards through the hydraulic rod 10 and lift the energy storage converter body 4, at the moment, the energy storage converter body 4 can stably push and separate by combining with the small ball 12 on the pushing plate 11, so that the energy storage converter body 4 can conveniently and stably continuously work, and in the upward movement process of the energy storage converter body 4, each sliding plate 602 can simultaneously move upwards and return to the original position by combining with the corresponding buffer spring 603, at the moment, under the movement action of the sliding plates 602, the conveying pipe 701 can drive the first rubber piston 606 and the second rubber piston 703 to return to the original position simultaneously, so as to drive the clamping plates 705 on two sides to simultaneously move towards two sides and separate from the energy storage converter body 4, and then can guarantee the stability of the follow-up dismantlement work of energy storage converter body 4, and in sliding plate 602 upward movement, can drive through leading wheel 1302 and pull rope 1301 steady motion that makes progress, pull rope 1301 under the motion effect this moment, can drive axis of rotation 1304 through fixed coil 1303 and rotate, axis of rotation 1304 can drive the teeth of a cogwheel pole 1306 of both sides simultaneously to middle motion about this moment axis of rotation 1305 passes through circular gear 1305, and then can drive the guard flap 1307 of both sides simultaneously to middle motion, guard flap 1307 combines recess 14 can carry out automatic stable closure closing work to filter plate 1309 this moment, and then can effectively prevent filter plate 1309 idle in-process, the circulation of air leads to adsorbing on filter plate 1309 and accumulates a large amount of dust and impurity and causes filter plate 1309 to block up.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. An energy storage converter suitable for energy storage of a container comprises a container shell (1) and a fixing groove (8), and is characterized in that; a heat dissipation base (2) and a guide plate (3) are welded and fixed in the container shell (1), the side end face of the guide plate (3) is connected with the side end face of the heat dissipation base (2) through screws, an energy storage converter body (4) is arranged in the container shell (1), universal wheels (5) are mounted on the bottom end face of the energy storage converter body (4) through bolts, a positioning and mounting component (6) is arranged in the heat dissipation base (2), a clamping and protecting component (7) is arranged in the container shell (1), a hydraulic cylinder (9) is fixed in the fixed groove (8) through bolts, the output end of the hydraulic cylinder (9) is connected with a hydraulic rod (10), a pushing plate (11) is welded and fixed at the top end of the hydraulic rod (10), a small ball (12) is rotatably connected on the pushing plate (11), and a heat dissipation protection component (13) is arranged on the container shell (1).

2. An energy storage converter suitable for storing energy in a container as claimed in claim 1, wherein: the transversal right triangle of personally submitting of deflector (3), the top face of deflector (3) and the top face parallel and level of heat dissipation base (2), the width of heat dissipation base (2) equals with the width of deflector (3), the bottom middle part at catch plate (11) is fixed in hydraulic stem (10), small-size ball (12) equidistance distributes on catch plate (11), the height that highly is greater than catch plate (11) top face of small-size ball (12) top face.

3. An energy storage converter suitable for storing energy in a container as claimed in claim 1, wherein: the positioning and mounting assembly (6) comprises a positioning groove (601), the positioning groove (601) and a fixing groove (8) are both arranged on the heat dissipation base (2), a sliding plate (602) is connected in the positioning groove (601) in a limiting and sliding manner, a buffer spring (603) is fixedly welded on the bottom end face of the sliding plate (602), the bottom end of the buffer spring (603) is fixedly welded on the inner bottom end face of the positioning groove (601), a linking frame (604) is fixedly welded on the sliding plate (602), the linking frame (604) is connected in the heat dissipation base (2) in a limiting and sliding manner, a connecting rod (605) is fixedly welded on the linking frame (604), a first rubber piston (606) is connected at the top end of the connecting rod (605) through a screw, the first rubber piston (606) is connected in a first connecting pipe (607) in a limiting and sliding manner, and a rubber sucker (608) is connected at the top end of the first connecting pipe (607) through a bolt, the bottom end of the first connecting pipe (607) is in screwed connection with a sealing ring (609), and the connecting rod (605) is in sealed sliding connection in the sealing ring (609).

4. An energy storage converter suitable for storing energy in a container as claimed in claim 3, wherein: the heat dissipation base is characterized in that the positioning grooves (601) are distributed on the heat dissipation base (2) at equal angles, the positioning grooves (601) are in one-to-one correspondence with the sliding plates (602) and the universal wheels (5), the side end face of the sliding plate (602) is attached to the inner wall of the positioning grooves (601), the rubber suction cups (608) are distributed at the top ends of the first connecting pipes (607) at equal intervals, the height of the top end face of the rubber suction cups (608) is larger than that of the top end face of the heat dissipation base (2), the inner wall of the first connecting pipes (607) is attached to the side end face of the first rubber piston (606), and the first connecting pipes (607) are symmetrically distributed on two sides of the heat dissipation base (2).

5. An energy storage converter suitable for storing energy in a container as claimed in claim 3, wherein: the clamping protection assembly (7) comprises a conveying pipe (701), a second connecting pipe (702) is connected to the top end of the conveying pipe (701) through a bolt, the second connecting pipe (702) is welded and fixed in the container shell (1), the second connecting pipe (702) is connected with a first connecting pipe (607) in the positioning installation assembly (6) through the conveying pipe (701), a second rubber piston (703) is connected in the second connecting pipe (702) in a limiting and sliding mode, a push rod (704) is connected to the second rubber piston (703) through a screw, a clamping plate (705) is fixed to the other end of the push rod (704) in a welding mode, and a rubber plate (706) is connected to the clamping plate (705) through a screw.

6. An energy storage converter suitable for storing energy in a container as claimed in claim 5, wherein: the inner wall of the second connecting pipe (702) is attached to the side end face of a second rubber piston (703), the central axis of the second rubber piston (703) and the central axis of a push rod (704) are located on the same horizontal central line, the push rod (704) is fixed to the middle of a clamping plate (705), and the length and the width of the clamping plate (705) are respectively equal to those of a rubber plate (706).

7. An energy storage converter suitable for storing energy in a container as claimed in claim 3, wherein: the heat dissipation protection assembly (13) comprises a dragging rope (1301), one end of the dragging rope (1301) is bolted to a sliding plate (602), the dragging rope (1301) is in limited sliding connection with a guide wheel (1302), the guide wheel (1302) is installed in a heat dissipation base (2) through bolts, the other end of the dragging rope (1301) is wound on a fixed coil (1303), the fixed coil (1303), a circular gear (1305) and a connecting scraping rod (1310) are all welded and fixed on a rotating shaft (1304), and the rotating shaft (1304) is rotatably connected to a filter screen plate (1309).

8. An energy storage converter suitable for storing energy in a container as claimed in claim 7, wherein: the filter screen plate (1309) is connected to a container shell (1) through screws, a gear rod (1306) is connected to a circular gear (1305) in a meshed mode, a protective baffle (1307) is welded and fixed to the gear rod (1306), the protective baffle (1307) is connected to the container shell (1) in a limiting sliding mode, a rubber rod (1308) is connected to the protective baffle (1307) through screws, the other end of the rubber rod (1308) is connected to the container shell (1) through screws, and a groove (14) is formed in the protective baffle (1307).

9. An energy storage converter suitable for storing energy in a container as claimed in claim 8, wherein: the outer end face of the filter screen plate (1309) is attached to the inner end face of the connecting scraping rod (1310), the connecting scraping rod (1310) is distributed on the rotating shaft (1304) at equal angles, the length of the connecting scraping rod (1310) is larger than the diameter of the filter screen plate (1309), the inner end face of the filter screen plate (1309) is attached to the outer end face of the protective baffle (1307), the protective baffle (1307) is semicircular, the protective baffles (1307) are symmetrically distributed on two sides of the filter screen plate (1309), and the diameter of the filter screen plate (1309) is smaller than the diameter of the protective baffle (1307).

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