CN115055004A - Novel safe efficient energy storage converter - Google Patents

Abstract

The invention relates to the field of energy storage converters, and discloses a novel safe and efficient energy storage converter which comprises a shell, a filter cover, a support rod and a dust scraping device, wherein the filter cover covers the upper side of the shell, the support rod is rotatably arranged in the shell, the support rod penetrates through the shell, the dust scraping device is fixedly connected with the support rod and is attached to the outer side of the filter cover, and when the support rod continuously rotates, the dust scraping device repeatedly scrapes dust generated from the interior of the filter cover, so that the generated dust is prevented from directly entering air to cause air pollution, and is scraped into a collecting tank to be subjected to centralized treatment, the air is further purified while the heat dissipation work is performed, and floating dust is reduced.

Description

Novel safe efficient energy storage converter

Technical Field

The invention relates to the technical field of energy storage converters, in particular to a novel safe and efficient energy storage converter.

Background

The energy storage converter can control the charging and discharging processes of the storage battery to perform alternating current-direct current conversion, can directly supply power for alternating current load under the condition of no power grid, is composed of a DC/AC bidirectional converter, a control unit and the like, can realize the regulation of active power and reactive power of the power grid, and can realize the protective charging and discharging of the battery.

Chinese patent publication No. CN113872418A discloses an energy storage converter that can realize automatic heat dissipation and cooling, including box and air-supply line, the upper end center department of box is provided with the air-supply line that the air feed body got into, the side of box is provided with the exhaust pipe that the air feed body flows out. Can realize the cleanness to the filter layer, can put out flame, avoid appearing catching fire the phenomenon.

The device produces vibrations through the start-up of motor and gets rid of impurity, but the fan piece is continuous to rotate this moment and is breathed in and can produce suction to impurity for impurity can't drop smoothly from the filter layer and accomplish and get rid of, has certain use limitation.

Therefore, there is a need to provide a new type of safe and efficient energy storage converter to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a novel safe and efficient energy storage converter to solve the problems that impurities are removed by vibration generated by starting of a motor in the background technology, and at the moment, suction force is generated on the impurities due to continuous rotation and air suction of a fan blade, so that the impurities cannot smoothly fall off from a filter layer to be removed, and the like.

In order to achieve the purpose, the filter cover with the adjustable air suction surface is designed, so that impurities can fall off smoothly.

Based on the above thought, the invention provides the following technical scheme: the utility model provides a novel safe efficient energy storage converter includes the casing, the filter mantle, branch and scrapes the dirt device, the filter mantle cover in the upside of casing, branch rotate set up in the inside of casing, branch runs through the casing, scrape the dirt device with branch fixed connection, and the laminating the filter mantle outside branch lasts the rotation the time, scrape the reciprocal strike off of dirt device and follow the dust of the inside production of filter mantle causes air pollution in avoiding the dust of production directly getting into the air, but strikes off into and carry out centralized processing in the collecting vat, further air-purifying when carrying out the work of dispelling the heat, reduces and floats the dust.

Preferably, the dust scraping device comprises a scraping strip, a rotating rod, a rotating wheel, a rotary frame, a plurality of tooth groove strips, a driving block and a driving wheel, wherein the driving wheel is fixedly connected with the supporting rod, the outer end face of the driving wheel is provided with the driving block, the driving block is provided with a plurality of driving blocks which are uniformly distributed on the outer edge half circle of the driving wheel, the rotary frame is arranged on the upper side of the driving wheel, the tooth groove strips are arranged on the inner side of the rotary frame in an up-and-down symmetrical mode, tooth grooves of the tooth groove strips can be matched with the driving block, a rack is arranged on the upper side of the rotary frame, the rotating wheel is meshed with the upper side of the rack, the rotating wheel is fixedly connected with the rotating rod, and the end part of the rotating rod is fixedly provided with the scraping strip attached to the filter mantle.

Preferably, scrape dirt device still includes spout and slide bar, the slide bar be fixed set up in return the lower extreme of type frame both sides, seted up on the casing with slide bar tip complex spout, branch drive wheel continuously rotates, the drive block drives back the reciprocal transverse motion of type frame with returning the tooth's socket strip cooperation on the type frame respectively, drives rack reciprocating motion, drives the reciprocal half-cycle of runner and rotates for scrape the strip and reciprocal strike off the dust on the filter mantle and get into in the collecting vat, cause air pollution in avoiding the dust that produces directly gets into the air, and strike off and carry out the centralized processing in further scraping the collecting vat, further air-purifying when carrying out the work of dispelling the heat, reduce and float the dust.

Preferably, the energy storage converter further comprises an energy storage converter body, a shell is fixedly mounted at the top of the energy storage converter body, a partition plate and a base are fixedly mounted inside the shell, an air channel communicated with the energy storage converter body penetrates through the surface of the base, a driving assembly is fixedly mounted on the surface of the base and corresponds to the position of the air channel, two adjusting assemblies and a transmission assembly in transmission connection with the driving assembly penetrate through and are rotatably mounted on the surface of the partition plate, and the transmission assembly is in transmission connection with the two adjusting assemblies respectively; the surface of base runs through and fixed mounting has a supporting component, and the supporting component includes two curb plates, and fixed mounting has the filter mantle that is the arc setting between two curb plates, and slidable mounting has two removal subassemblies between two curb plates, and two removal subassemblies are rolled up respectively and are established on two adjusting part.

Preferably, the adjusting part includes running through the baffle and rather than the stock of rotating the connection, and the fixed surface of establishing at the stock of rolling up of removal subassembly, the tip fixed mounting of stock have with the spur gear that the transmission assembly transmission is connected, the surface cover of stock is equipped with the torsional spring.

Preferably, two guide grooves are formed in the surface of the side plate, the two moving assemblies are in sliding fit with the two guide grooves respectively, and a third spring fixedly connected with the moving assemblies is fixedly mounted on the wall, close to the filter cover, of each guide groove.

Preferably, the guide groove is composed of a clamping groove and an arc-shaped groove which are communicated with each other, the clamping groove and the arc-shaped groove are vertically arranged by taking the upper surface of the base as a boundary, and the arc-shaped groove is positioned above the base.

Preferably, the clamping groove is in a spiral shape, and the center point of the clamping groove is superposed with the axial center line of the long rod.

Preferably, the arc-shaped groove is matched with the inner wall of the filter cover in shape, and the third spring is arranged on the groove wall of the arc-shaped groove far away from the base.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a perspective view of the overall construction of the present invention;

FIG. 2 is a schematic view of the housing and filter housing of the present invention;

FIG. 3 is a schematic view of the housing of the present invention with the filter cover removed;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

FIG. 5 is an enlarged view of the structure at B in FIG. 3;

FIG. 6 is a bottom view of the housing of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C;

FIG. 8 is a schematic view of a partial gear and a spur gear configuration of the present invention;

FIG. 9 is a schematic view of a plurality of square plates according to the present invention after being unfolded;

FIG. 10 is a schematic view of the internal structure of the square plate of the present invention;

FIG. 11 is a schematic view of the main structure of the dust scraper of the present invention;

FIG. 12 is an enlarged view of the structure of FIG. 11 at D;

fig. 13 is a cross-sectional view of the slide of the present invention.

In the figure: 1. a housing; 2. a base; 3. a support assembly; 4. a drive assembly; 5. a moving assembly; 6. an air duct; 7. a transmission assembly; 8. a partition plate; 9. an adjustment assembly; 10. a filter housing; 11. an energy storage converter body; 12. an extrusion assembly; 13. collecting tank; 301. a side plate; 302. a guide groove; 401. a support; 402. a motor; 403. a short bar; 404. a fan blade; 405. a bevel pinion gear; 501. a square plate; 502. a clamping block; 503. pulling a rope; 504. a hauling rope; 505. a top rod; 506. a slider; 507. a connecting rod; 508. a first spring; 701. a strut; 702. a large bevel gear; 703. an incomplete gear; 901. a long rod; 902. a flat gear; 903. a torsion spring; 1201. pressing a plate; 1202. a second spring; 14. a dust scraping device; 1401. scraping the strips; 1402. a rotating rod; 1403. a rotating wheel; 1404. a back-shaped frame; 1405. a rack and groove bar; 1406. a drive block; 1407. a drive wheel; 1408. a chute; 1409. a slide bar.

Detailed Description

The first embodiment is as follows:

referring to fig. 1 to fig. 6, an embodiment of the present invention provides a novel safe and efficient energy storage converter: the energy storage converter comprises an energy storage converter body 11, wherein the energy storage converter body 11 is the existing mature technology and is not described in detail herein; a shell 1 is fixedly installed at the top of the energy storage converter body 11, a partition plate 8 and a base 2 arranged in a T shape are fixedly installed inside the shell 1, and an air duct 6 which is communicated with the energy storage converter body 11 and is arranged in a circular shape penetrates through the surface of the base 2, so that gas can only flow into the energy storage converter body 11 through the air duct 6; the surface of base 2 and the fixed position that corresponds wind channel 6 install drive assembly 4, and the surface of baffle 8 runs through and rotates and installs two adjusting part 9 and the transmission assembly 7 of being connected with drive assembly 4 transmission, and transmission assembly 7 is located between two adjusting part 9 and is connected with two adjusting part 9 transmission respectively.

The surface of the base 2 is penetrated and fixedly provided with a supporting component 3, the supporting component 3 comprises two side plates 301 which are arranged in a U shape, a filter cover 10 which is arranged in an arc shape is fixedly arranged between the two side plates 301, a plurality of filter holes which are arranged in a rectangular array are formed in the filter cover 10, and gas can pass through the filter holes of the filter cover 10 before entering the air duct 6; two moving assemblies 5 are slidably mounted between the two side plates 301, the sliding tracks of the two moving assemblies 5 are relative movement along the inner wall of the filter cover 10, and the two moving assemblies 5 are respectively fixedly wound on the two adjusting assemblies 9.

In the present embodiment, it is preferable that: when the energy storage converter is used, the driving assembly 4 is started to introduce external air into the air duct 6 of the shell 1 through the filter cover 10, then the external air enters the energy storage converter body 11 through the air duct 6 to rapidly dissipate heat of the energy storage converter body, at the moment, the filter cover 10 can filter waste in the air, and therefore the waste is prevented from entering the shell 1; the driving assembly 4 can also drive the transmission assembly 7 to rotate, the transmission assembly 7 drives the left side adjusting assembly 9 to rotate firstly and then drives the right side adjusting assembly 9 to rotate, the adjusting assembly 9 enables the moving assembly 5 to slide along the inner wall of the side plate 301 relative to the filter cover 10 when rotating, when sliding to the limit position, the moving assembly 5 blocks one side of the filter cover 10, gas can not smoothly enter the shell 1 from the side, the moving assembly 5 can stretch out from the filter hole of the filter cover 10, and effective cleaning of the filter hole of the filter cover 10 is realized. When the transmission between the adjusting component 9 and the transmission component 7 is finished, the adjusting component 9 automatically resets, and the moving component 5 returns along the original path and winds on the adjusting component 9 under the action of the supporting component 3; the motion process of the left side and the motion process of the right side are the same, the left side of the filter cover 10 is blocked when the left side moving assembly 5 moves, and the right side of the filter cover 10 is blocked when the right side moving assembly 5 moves, which is not repeated herein.

Through the matching of the structures of the driving component 4, the supporting component 3, the moving component 5, the adjusting component 9 and the like, the gas can be quickly introduced into the energy storage converter body 11, so that the energy storage converter body 11 can be effectively cooled, and meanwhile, the filter cover 10 can effectively filter the gas when the gas is introduced; at the in-process of introducing gas, can drive removal subassembly 5 along filter mantle 10 inner wall reciprocating motion, can realize the effective cleanness to filter mantle 10 filtration pore, and can block one side that corresponds of filter mantle 10 in clean process for the gas of this side can not be continued to introduce in casing 1 again, and then can make the waste material of clearing out in the filtration pore can not adsorbed other filtration pores again, can guarantee the continuous cleanliness of filtration pore, holistic practicality is higher.

Example two:

referring to fig. 1 to 10, on the basis of the first embodiment, the driving assembly 4 includes a bracket 401 fixedly connected to the base 2, a motor 402 is fixedly installed on a surface of the bracket 401, a short rod 403 is fixedly installed on an output shaft of the motor 402, a fan blade 404 located in the air duct 6 is fixedly installed on an outer surface of the short rod 403, and the motor 402 drives the short rod 403 and the fan blade 404 to rotate to complete air suction; the end of the short rod 403 far from the motor 402 is fixedly provided with a bevel pinion 405 in transmission connection with the transmission assembly 7.

The transmission assembly 7 comprises a support rod 701 penetrating through the partition plate 8 and rotatably connected with the partition plate, one end of the support rod 701 extends into the air duct 6 and is fixedly provided with a large bevel gear 702 in transmission connection with the small bevel gear 405, and the small bevel gear 405 can drive the large bevel gear 702 to rotate for one circle only by rotating for a plurality of circles through the design of the large bevel gear 702 and the small bevel gear 405; the other end of the supporting rod 701 is fixedly provided with an incomplete gear 703 which is in transmission connection with both the two adjusting assemblies 9.

The adjusting component 9 comprises a long rod 901 which penetrates through the partition plate 8 and is connected with the partition plate in a rotating mode, and the moving component 5 is fixedly wound outside the long rod 901; one end of a long rod 901 is rotatably connected with the inner wall of the shell 1 to ensure stability, the other end of the long rod is fixedly provided with a flat gear 902 which is in transmission connection with the incomplete gear 703, the flat gear 902 and the incomplete gear 703 are not in a meshing state in an initial state, and the flat gear 902 can complete transmission after the incomplete gear 703 rotates; the outer surface cover of stock 901 is equipped with torsional spring 903, and under the effect of torsional spring 903, stock 901 has the trend of moving the rolling of subassembly 5 all the time.

The surface of the side plate 301 is provided with two guide grooves 302 which are symmetrically arranged, the moving assembly 5 is in sliding fit with the corresponding guide grooves 302, each guide groove 302 is formed by connecting a clamping groove and an arc-shaped groove, the clamping grooves are positioned below the base 2 and are in a scroll shape, the two guide grooves 302 are symmetrically arranged integrally, but the two clamping grooves are in the same direction, and meanwhile, the central point of each scroll-shaped clamping groove is superposed with the axial central line of the long rod 901; the arc-shaped groove is positioned above the base 2 and is arc-shaped, namely, the arc-shaped groove is matched with the shape of the inner wall of the filter housing 10, and in an initial state, the moving assembly 5 is rolled on the long rod 901 and positioned at the junction of the clamping groove and the arc-shaped groove, namely, the moving assembly just corresponds to the upper surface of the base 2; the wall fixed mounting that the draw-in groove was kept away from to the arc wall has the third spring (not shown in the figure) with removal subassembly 5 fixed connection, and the overall shape and the arc wall adaptation of third spring also are the arc form, and under the effect of third spring, removal subassembly 5 has along the arc wall to keeping away from the trend that the draw-in groove direction removed.

The moving assembly 5 comprises a plurality of square plates 501 which are sequentially connected in a rotating mode, clamping blocks 502 movably clamped with the guide grooves 302 are fixedly installed on the front side and the rear side of each square plate 501, when the square plates 501 are unfolded (as shown in the view angle of fig. 9), the clamping block 502 farthest away from the long rod 901 is fixedly connected with a corresponding third spring, a pull rope 503 wound on the long rod 901 is fixedly installed on the surface of the square plate 501 closest to the long rod 901, when the long rod 901 rotates, the square plates 501 can be wound along the long rod 901 through the pull rope 503 and a scroll-shaped clamping groove, the square plate 501 farthest away from the long rod 901 is flush with the upper surface of the base 2, and a long hole for the square plates 501 to move is formed in the base 2 in a penetrating mode; a plurality of ejector rods 505 arranged in a rectangular array are arranged on the surface of each square plate 501 in a penetrating and sliding manner, the ejector rods 505 are arranged corresponding to the filter holes on the filter cover 10, and a rubber layer is arranged at the end part close to the filter cover 10; the interior of the square plate 501 farthest away from the long rod 901 is elastically connected with a traction rope 504 through a first spring 508, and the traction rope 504 sequentially penetrates through each square plate 501 and is fixedly wound on the long rod 901, namely is arranged in the same way as the pull rope 503; the outer surface of haulage rope 504 and the inside that is located every square plate 501 all fixed mounting have slider 506, the surface rotation of slider 506 installs the connecting rod 507 that a plurality of incline direction is the same, the tip that slider 506 was kept away from to connecting rod 507 rotates with corresponding ejector pin 505 and is connected, in this embodiment, left connecting rod 507 is the setting of slant right side below, the connecting rod 507 on right side is the setting of slant left side below, make when slider 506 moves along square plate 501 to the direction of keeping away from first spring 508, can drive ejector pin 505 through connecting rod 507 and rise for square plate 501.

In the present embodiment, it is preferable that: when the energy storage converter is used, the motor 402 is started to drive the short rod 403, the fan blades 404 and the small bevel gear 405 to rotate, the fan blades 404 introduce external air into the energy storage converter body 11 through the filter cover 10 and the air duct 6 to rapidly dissipate heat of the external air, and waste in the air is filtered when the air passes through the filter cover 10; after rotating for multiple circles, the small bevel gear 405 drives the large bevel gear 702 to rotate for one circle, the large bevel gear 702 drives the support rod 701 and the incomplete gear 703 to rotate, and the incomplete gear 703 drives the left flat gear 902 and the right flat gear 902 to rotate for one circle in sequence.

The flat gear 902 can drive the long rod 901 and the torsion spring 903 to rotate when rotating, and the pull rope 503 and the traction rope 504 start to release, at this time, under the action of the third spring, the fixture block 502 farthest from the long rod 901 drives the square plate 501 farthest from the long rod 901 to slide along the arc-shaped groove and relative to the inner wall of the filter cover 10, and because the plurality of square plates 501 are sequentially connected in a rotating manner, the rest square plates 501 can move synchronously; when the square plate 501 slides to the extreme position, all the sliding plates block one side of the filter housing 10, so that gas cannot smoothly enter the housing 1 from the side, at the moment, because the length of the pulling rope 504 is effective, after the square plate 501 slides to the extreme position, the pulling rope 504 moves in the direction away from the first spring 508 relative to the square plate 501, the pulling rope 504 drives the sliding block 506 to synchronously move, and the sliding block 506 drives the ejector rod 505 to ascend relative to the square plate 501 through the connecting rod 507 and extend out of the filter holes of the filter housing 10. When the transmission of the flat gear 902 and the incomplete gear 703 is finished, the flat gear 902 is disengaged from the incomplete gear 703, at this time, under the action of the torsion spring 903, the flat gear 902 and the long rod 901 both automatically rotate reversely to reset, the long rod 901 drives the square plates 501 to reset along the arc-shaped grooves through the pull ropes 503 when rotating reversely, the square plates 501 automatically wind around the outside of the long rod 901 along the scroll-shaped clamping grooves after entering the bottom of the base 2, meanwhile, the square plates 501 stretch the third spring, and at this time, the pull ropes 504 drive the sliding block 506 to reset along the direction of the first spring 508 along the square plates 501 under the action of the first spring 508, and the sliding block 506 drives the push rod 505 to automatically retract into the inside of the square plates 501 through the connecting rod 507 and sequentially reciprocate; the movement process of the left side and the right side is the same, the left side of the filter cover 10 is blocked when the left side square plate 501 moves, and the right side of the filter cover 10 is blocked when the right side square plate 501 moves, which is not repeated herein.

Through the matching of the structures such as the square plate 501, the guide groove 302, the support rod 701 and the traction rope 504, the gas can be quickly introduced into the energy storage converter body 11, so that the energy storage converter body 11 can be effectively cooled, and meanwhile, the filter cover 10 can effectively filter the gas when the gas is introduced; in the process of introducing gas, the square plates 501 can be driven to reciprocate along the inner wall of the filter housing 10, and the ejector rods 505 automatically extend out along the filter holes in the process, so that the filter holes of the filter housing 10 can be effectively cleaned; the square plate 501 can block one side corresponding to the filter cover 10 in the moving process along the inner wall of the filter cover 10, so that gas on the side can not be continuously introduced into the shell 1 any more, the suction force to waste can be eliminated if the gas is not introduced into the shell 1 any more, meanwhile, in the resetting process of the square plate 501 along the filter cover 10, gradual blocking of two sides of the filter cover 10 can still be realized, further, waste cleaned from filter holes can not be adsorbed to other filter holes any more, and the continuous cleanliness of the filter holes can be ensured; by arranging the small bevel gear 405 and the large bevel gear 702, the square plate 501 can move once after the small bevel gear 405 rotates for a plurality of circles, so that intermittent reciprocating movement of the square plate 501 can be realized, and the cleaning effect on the filter holes can be ensured on the basis of ensuring air suction and heat dissipation; by arranging the incomplete gear 703 and the flat gear 902, the flat gear 902 can be meshed with the incomplete gear 703 for transmission so as to realize corresponding movement of the square plate 501, and can also automatically reset along the incomplete gear 703 without interference, so that feasibility is provided for reciprocating movement of the square plate 501, and more requirements in practical use are met.

Example three:

referring to fig. 1 to 10, on the basis of the second embodiment, a squeezing assembly 12 movably attached to the two side moving assemblies 5 is slidably mounted inside the casing 1, the squeezing assembly 12 includes a pressing plate 1201 which is in sliding fit with the casing 1 and movably attached to the moving assemblies 5, the pressing plate 1201 can horizontally slide left and right along the inner wall of the casing 1, and a collecting tank 13 for containing waste is formed between one side of the pressing plate 1201 away from the moving assemblies 5 and the inner wall of the casing 1.

The number of the pressing plates 1201 is two, in this embodiment, the two pressing plates 1201 are movably attached to the moving assemblies 5 on the two sides, and one square plate 501 is attached to the pressing plate 1201; the opposite sides of the two pressing plates 1201 are fixedly provided with a second spring 1202 together, under the action of the second spring 1202, the two pressing plates 1201 tend to fold towards the middle, the two pressing plates 1201 are unfolded towards two sides by the square plates 501 wound along the support rod 701, in an initial state, the square plates 501 are wound on the support rod 701, and at the moment, the two pressing plates 1201 are in a relatively far-away state; the top of the platen 1201 and the side away from the moving assembly 5 are sloped so that the platen 1201 can still provide waste guidance after movement.

In the present embodiment, it is preferable that: when the starting motor 402 drives the short rod 403, the fan blades 404 and the small bevel gear 405 to rotate, the fan blades 404 complete air-entraining heat dissipation on the energy storage converter body 11; the small bevel gear 405 is matched with the large bevel gear 702, the support rod 701, the incomplete gear 703 and the flat gear 902 in structure, can drive the long rod 901 and the torsion spring 903 to rotate and release the pull rope 503 and the traction rope 504, at the moment, under the matching of the structures such as the third spring, the fixture block 502, the guide groove 302 and the traction rope 504, can drive a plurality of square plates 501 to slide along the arc-shaped groove and relative to the inner wall of the filter cover 10, and block one side of the filter cover 10, in the process, a plurality of square plates 501 are sequentially discharged along the long rod 901 and the scroll-shaped clamping groove, under the action of the second spring 1202, the two pressing plates 1201 are sequentially and automatically folded towards the middle and finally correspondingly attached to the long rods 901 on the two sides, meanwhile, the ejector rod 505 rises relative to the square plate 501 under the action of the traction rope 504, the first spring 508, the sliding block 506 and the connecting rod 507 and extends out of the filtering holes of the filtering cover 10, and at the moment, waste cleared from the filtering holes can automatically slide into the collecting tank 13 along the outer wall of the filtering cover 10.

After the flat gear 902 is disengaged from the incomplete gear 703, the flat gear 902, the support rod 701, the pull rope 503 and the plurality of square plates 501 are reset respectively under the action of the torsion spring 903, that is, the plurality of square plates 501 are wound on the outer surface of the long rod 901 along the clamping grooves; in the process, the pressing plates 1201 on the corresponding sides are sequentially pressed by the square plates 501, so that the two pressing plates 1201 are correspondingly far away from the two sides, the pressing plates 1201 are matched with the inner side wall of the shell 1, so that the waste in the collecting tank 13 can be pressed, and meanwhile, the slope formed on the pressing plates 1201 does not influence the continuous sliding of the waste.

In the second embodiment, after the top bar 505 clears the waste on the filtering holes of the filtering cover 10, the waste is accumulated on both sides of the filtering cover 10, when the fan blades 404 rotate continuously, the cleared waste may be adsorbed again, and meanwhile, the accumulated waste may affect the normal use of the filtering holes at both side edges of the filtering cover 10, which has certain use limitation. Compared with the second embodiment, through the matching of the square plates 501, the shell 1, the pressing plates 1201 and the second springs 1202 and other structures, in the process that the plurality of square plates 501 are wound and unwound along the long rods 901, not only can the filtration pores of the filter mantle 10 be quickly cleaned, but also the two pressing plates 1201 can be driven to be relatively close to and away from each other, in the process that the two pressing plates 1201 are relatively close to each other, the size of the collecting tank 13 can be increased, so that more wastes can be stored in the collecting tank 13, in the process that the two pressing plates 1201 are relatively away from each other, the wastes in the collecting tank 13 can be quickly extruded, the wastes are clustered to be conveniently subjected to later-stage centralized treatment, and further more wastes can be stored in the collecting tank 13; when a plurality of square plates 501 are wound on the long rod 901 (i.e. during normal air suction), the two pressing plates 1201 are in a relatively far state, and are in a continuous squeezing state on the waste, so that the waste in the collecting tank 13 can be prevented from overflowing and floating; when the square plates 501 are unreeled from the support rods 701 to block one side of the filter housing 10, although the pressing plate 1201 on the side releases the compression state of the waste, the square plates 501 also block the filter housing 10 on the side, and the filter housing 10 on the side stops air intake, so that the waste is not sucked up from the collecting tank 13, the waste cannot float to the position of the filter hole, the overall cleaning effect and the air suction effect are better, and the applicability is stronger; the square plate 501 is better utilized to move integrally, power is provided for the movement of the pressing plate 1201, and the functionality is stronger.

Example four:

the utility model provides a novel safe efficient energy storage converter includes casing 1, filter mantle 10, branch 701 and scrapes dirt device 14, filter mantle 10 cover in the upside of casing 1, branch 701 rotate set up in the inside of casing 1, branch 701 runs through casing 1, scrape dirt device 14 with branch 701 fixed connection, and the laminating the filter mantle 10 outside branch 701 lasts the rotation simultaneously, scrape the reciprocal dust that strikes off of dirt device 14 and follow the dust that produces in filter mantle 10 inside causes air pollution in avoiding the dust that produces directly to get into the air, but strikes off into and carries out centralized processing in the collecting vat, further air-purifying when carrying out the work of dispelling the heat, reduces and floats the dust.

Specifically, the dust scraping device 14 includes a scraping strip 1401, a rotating rod 1402, a rotating wheel 1403, a square frame 1404, a spline bar 1405, a driving block 1406 and a driving wheel 1407, the driving wheel 1407 is fixedly connected to the supporting rod 701, the driving block 1407 is disposed on an outer end surface of the driving wheel 1407, the driving block 1407 is provided with a plurality of driving blocks 1407, the driving blocks 1407 are uniformly distributed on an outer edge half circle of the driving wheel 1407, the square frame 1404 is disposed on an upper side of the driving wheel 1407, the spline bar 1405 is disposed on an inner side of the square frame 1404 and symmetrically disposed on an upper and lower side, the spline bar 1405 can be matched with the driving block 1406, a rack is disposed on the upper side of the square frame 1404, the rotating wheel 1403 is engaged with the rotating rod 1402, and the end of the rotating rod 1402 is fixedly provided with the scraping strip 1401 fitted to the filter housing 10.

Specifically, scrape dirt device 14 and still include spout 1408 and slide bar 1409, slide bar 1409 is fixed set up in return the lower extreme of type frame 1404 both sides, casing 1 is last seted up with slide bar 1409 tip complex spout 1408, branch drive wheel continuously rotates, the drive block drives back type frame reciprocating transverse motion with the tooth's socket strip cooperation on returning the type frame respectively, drives rack reciprocating motion, drives the reciprocal half cycle of runner and rotates for scrape the strip and strike off the dust on the filter mantle and get into in the collecting vat in reciprocating, cause air pollution in avoiding the dust of production directly getting into the air, but strike off and carry out centralized processing in the collecting vat, further air-purifying when carrying out the work of dispelling the heat, reduce and float the dust.

The energy storage converter comprises an energy storage converter body, wherein a shell is fixedly mounted at the top of the energy storage converter body, a partition plate and a base are fixedly mounted inside the shell, an air channel communicated with the energy storage converter body is formed in the surface of the base in a penetrating mode, a driving assembly is fixedly mounted on the surface of the base and corresponds to the position of the air channel, two adjusting assemblies and a transmission assembly in transmission connection with the driving assembly are rotatably mounted on the surface of the partition plate in a penetrating mode, and the transmission assembly is in transmission connection with the two adjusting assemblies respectively; the surface of base runs through and fixed mounting has a supporting component, and the supporting component includes two curb plates, and fixed mounting has the filter mantle that is the arc setting between two curb plates, and slidable mounting has two removal subassemblies between two curb plates, and two removal subassemblies are rolled up respectively and are established on two adjusting part.

Specifically, the adjusting part is including running through the baffle and rather than the stock of rotating the connection, and the fixed roll of removal subassembly is established at the surface of stock, and the tip fixed mounting of stock has the spur gear of being connected with the transmission assembly transmission, and the surface cover of stock is equipped with the torsional spring.

Specifically, two guide grooves are formed in the surface of the side plate, the two moving assemblies are in sliding fit with the two guide grooves respectively, and a third spring fixedly connected with the moving assemblies is fixedly mounted on the wall, close to the filter mantle, of each guide groove.

Specifically, the guide groove comprises a clamping groove and an arc-shaped groove which are communicated with each other, the clamping groove and the arc-shaped groove are vertically arranged by taking the upper surface of the base as a boundary, and the arc-shaped groove is positioned above the base.

Specifically, the clamping groove is in a scroll shape, and the center point of the clamping groove is superposed with the axial center line of the long rod.

Specifically, the arc wall is matched with the inner wall shape of the filter cover, and the third spring is arranged on the wall of the arc wall far away from the base.

The working principle of the invention is as follows: when the energy storage converter is used, the motor 402 is started to drive the short rod 403, the fan blades 404 and the small bevel gear 405 to rotate, external air is introduced by the fan blades 404 to finish heat dissipation on the energy storage converter body 11, and the air is filtered to waste when passing through the filter cover 10; the bevel pinion 405 can drive the long rod 901 and the torsion spring 903 to rotate and release the pull rope 503 and the traction rope 504 through the matching of structures such as the bevel pinion 702, the supporting rod 701, the incomplete gear 703 and the plane gear 902, and through the matching of structures such as the third spring, the fixture block 502, the guide groove 302 and the traction rope 504, the square plates 501 slide along the arc-shaped groove and relative to the inner wall of the filter housing 10, one side of the filter housing 10 is blocked, the pressing plate 1201 is automatically folded towards the middle to be attached to the corresponding long rod 901, and the mandril 505 extends out of the filter holes of the filter housing 10 under the action of the traction rope 504, the first spring 508, the sliding block 506 and the connecting rod 507 to clear waste and gather in the collecting groove 13.

After the flat gear 902 is disengaged from the incomplete gear 703, under the action of the torsion spring 903, the flat gear 902, the support rod 701, the pull rope 503 and the plurality of square plates 501 reset respectively, the square plates 501 are wound outside the long rod 901 along the spiral clamping groove, in the process, the plurality of square plates 501 sequentially press the press plate 1201 on the corresponding side to enable the press plate 1201 to be far away towards two sides, the ejector rod 505 is automatically retracted into the square plates 501 under the matching of the structures of the traction rope 504, the first spring 508, the sliding block 506, the connecting rod 507 and the like, and reciprocates in sequence, the support rod drives the driving wheel to rotate continuously, the driving block is respectively matched with the tooth socket strips on the back-shaped frame to drive the back-shaped frame to reciprocate transversely move to drive the rack to reciprocate half-circle rotate to enable the scraping strips to reciprocate on the filter housing to enter the filter housing, and the phenomenon that the generated dust directly enters the air to cause air pollution is avoided, but rather scrape into the collecting vat and carry out centralized processing, further air-purifying when carrying out the work of dispelling the heat, reduce and float the dust.

Claims (9)

1. The utility model provides a novel safe efficient energy storage converter, its characterized in that, includes the casing, the filter mantle, branch and scrape the dirt device, the filter mantle cover in the upside of casing, branch rotate set up in the inside of casing, branch runs through the casing, scrape the dirt device with branch fixed connection, and the laminating the filter mantle outside branch lasts the rotation while, it strikes off the follow to scrape the dirt device is reciprocal the inside dust that produces of filter mantle.

2. The novel safe and efficient energy storage converter according to claim 1, wherein the dust scraping device comprises a scraping strip, a rotating rod, a rotating wheel, a square frame, a rack strip, a driving block and a driving wheel, the driving wheel is fixedly connected with the supporting rod, the driving block is arranged on the outer end face of the driving wheel, the driving block is provided with a plurality of driving blocks, the driving blocks are uniformly distributed on the outer edge half circle of the driving wheel, the square frame is arranged on the upper side of the driving wheel, the rack strip is symmetrically arranged on the inner side of the square frame up and down, the tooth grooves of the rack strip can be matched with the driving block, a rack is arranged on the upper side of the square frame, the rotating wheel is meshed with the rotating rod, the rotating rod is fixedly connected with the rotating rod, and the end portion of the rotating rod is fixedly provided with the scraping strip attached to the filter cover.

3. The novel safe and efficient energy storage converter according to claim 2, wherein the dust scraping device further comprises a sliding groove and a sliding rod, the sliding rod is fixedly arranged at the lower ends of the two sides of the frame, and the shell is provided with a sliding groove matched with the end portion of the sliding rod.

4. The novel safe and efficient energy storage converter according to claim 1, further comprising an energy storage converter body, wherein a shell is fixedly installed at the top of the energy storage converter body, a partition plate and a base are fixedly installed inside the shell, an air duct communicated with the energy storage converter body penetrates through the surface of the base, a driving assembly is fixedly installed on the surface of the base and corresponds to the position of the air duct, two adjusting assemblies and a transmission assembly in transmission connection with the driving assembly penetrate through and are rotatably installed on the surface of the partition plate, and the transmission assembly is in transmission connection with the two adjusting assemblies respectively; the surface of base runs through and fixed mounting has a supporting component, and the supporting component includes two curb plates, and fixed mounting has the filter mantle that is the arc setting between two curb plates, and slidable mounting has two removal subassemblies between two curb plates, and two removal subassemblies are rolled up respectively and are established on two adjusting part.

5. The novel safe and efficient energy storage converter according to claim 4, wherein the adjusting assembly comprises a long rod penetrating through the partition plate and rotatably connected with the partition plate, the moving assembly is fixedly wound on the outer surface of the long rod, a flat gear in transmission connection with the transmission assembly is fixedly installed at the end of the long rod, and a torsion spring is sleeved on the outer surface of the long rod.

6. The novel safe and efficient energy storage converter according to claim 5, wherein the surface of the side plate is provided with two guide grooves, the two moving assemblies are respectively in sliding fit with the two guide grooves, and a third spring fixedly connected with the moving assemblies is fixedly installed on the wall of the guide groove close to the filter mantle.

7. The novel safe and efficient energy storage converter according to claim 6, wherein the guide groove is composed of a clamping groove and an arc-shaped groove which are communicated with each other, the clamping groove and the arc-shaped groove are arranged up and down with the upper surface of the base as a boundary, and the arc-shaped groove is located above the base.

8. The new safe and efficient energy storage converter according to claim 7, wherein said slot is in the shape of a scroll and its center point coincides with the axial center line of the long rod.

9. The novel safe and efficient energy storage converter as claimed in claim 7, wherein the arc-shaped groove is matched with the inner wall of the filter cover in shape, and the third spring is arranged on the wall of the arc-shaped groove far away from the base.

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