CN105996905B

CN105996905B - Shunting cyclone dust collector

Info

Publication number: CN105996905B
Application number: CN201610394706.XA
Authority: CN
Inventors: 周荣; 郑良宝
Original assignee: Ningbo Haiji Electric Appliance Co ltd
Current assignee: Ningbo Haiji Electric Appliance Co ltd
Priority date: 2016-06-03
Filing date: 2016-06-03
Publication date: 2020-12-29
Anticipated expiration: 2036-06-03
Also published as: CN105996905A

Abstract

The invention discloses a shunting cyclone dust collector which comprises a main machine body, an air suction motor, a dust cup body and a suction port base, wherein the dust cup body comprises a cup body, a cup cover and a cup bottom, a cup body air inlet is formed in the cup body, a plurality of shunting cyclone conical cylinders are arranged in the dust cup body, tangential air inlet branch pipes are arranged on the shunting cyclone conical cylinders, the upper ends and the lower ends of the shunting cyclone conical cylinders are both open, the upper end opening of each shunting cyclone conical cylinder is larger than the lower end opening, the upper end opening of each shunting cyclone conical cylinder is communicated with an air inlet end of the air suction motor through a middle air duct, an air outlet end of the air suction motor is communicated with an outer air outlet arranged on the main machine body, a. The invention has the beneficial effects that: the air duct has a reasonable structure, and can effectively separate and collect dust; the dust collection capacity is strong, the filtering effect is good, and the cleanness of the exhaust air can be guaranteed; the solar energy storage device is provided with an electricity storage structure, can work without wires, and has strong cooling, heat dissipation and shock resistance of each structure; the whole stability is good, and the noise is little.

Description

Shunting cyclone dust collector

Technical Field

The invention belongs to the technical field of dust collectors, and particularly relates to a shunting type cyclone dust collector.

Background

With the development of the times and the improvement of the living standard, dust collecting equipment, in particular household dust collectors, have been widely applied. The vacuum cleaner is an electric appliance which uses an electric motor (a suction motor) to generate air negative pressure in a sealed shell to suck dust or garbage. The existing dust collector has the main function of recovering and cleaning dust and garbage on floors, carpets and the like at home. However, the existing dust collector still has shortcomings in the aspects of the arrangement of an air duct, the separation capacity and efficiency of dust and air and the like.

Disclosure of Invention

The invention provides a shunting type cyclone dust collector which has reasonable structure, strong dust collection and separation capability, good filtering effect and capability of effectively finishing functions of dust collection, separation, air exhaust and the like, and can avoid the unclean separation of small particle dust in order to overcome the defects in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a shunting cyclone dust collector comprises a main body and an air suction motor, wherein a dust cup body and a suction inlet seat used for being butted with a dust suction pipe are arranged on the main body, the dust cup body comprises a cup body, a cup cover matched and connected with the cup body and a cup bottom matched and connected with the cup body, a cup body air inlet communicated with the suction inlet seat is arranged on the cup body, a plurality of shunting cyclone cone cylinders are arranged in the dust cup body, tangential air inlet branch pipes are arranged on the shunting cyclone cone cylinders, the upper ends and the lower ends of the shunting cyclone cone cylinders are both opened, the upper end opening of each shunting cyclone cone cylinder is larger than the lower end opening, the upper end opening of each shunting cyclone cone cylinder is communicated with an air inlet end of the air suction motor through a middle air channel, the air outlet end of the air suction motor is communicated with an outer air outlet arranged on the main body, the middle air channel comprises a cover air channel arranged in the main body and an air channel arranged on the main body, the cup cover is connected with the cup body in a clamped mode, a pressing strip is arranged on the inner surface of the cup cover, a top spring used for ejecting the lower end of the pressing strip outwards from the cup cover is arranged on the inner surface of the cup cover, the upper end of the pressing strip is hinged to the inner surface of the cup cover, a hooking pressure head is arranged at the lower end of the pressing strip, a hooking part used for blocking the hooking pressure head to be close to the cup cover is arranged in the cup body, the air inlet sponge is located above the hooking part and completely covers the hooking part, a storage battery used for supplying power to an air suction motor.

Preferably, a filter cartridge is arranged in the dust cup body, a plurality of filter mesh openings are formed in the filter cartridge, and the air inlet end of each tangential air inlet branch pipe is located in the filter cartridge.

Preferably, an air guide inner cylinder is arranged in the split cyclone cone cylinder, and in one split cyclone cone cylinder: the air guide inner cylinder is coaxial with the flow-dividing cyclone cone cylinder, and at least one dust suppression stop rod is arranged in the air guide inner cylinder.

Preferably, the air inlet of the cup body is communicated with the suction port seat through an air inlet duct of the cup body, and the air inlet direction of the air inlet duct of the cup body is a tangential direction of the dust cup body.

Preferably, the filter cartridge lower extreme is equipped with the fine ash storehouse, and the equal opening of upper and lower extreme in fine ash storehouse, fine ash storehouse upper end opening and filter cartridge lower extreme intercommunication have the opening bottom the cup body, are equipped with the rubber piece on the bottom of the cup, and the bottom of the cup can rotate the opening relative to the cup body, is equipped with the buckle spare that matches each other between bottom of the cup and the cup body, and when buckle spare lock, the bottom of the cup covers the opening of cup body bottom, and the rubber piece covers fine ash storehouse lower extreme opening.

Preferably, the bottom of the battery shell is provided with a main vent, the top of the battery shell is provided with a plurality of auxiliary vents, a shock absorption frame body is arranged in the battery shell, the battery pack is connected with the shock absorption frame body, a plurality of shock absorption springs are arranged between the shock absorption frame body and the bottom of the battery shell, the lower end of the shock absorption frame body is provided with a plurality of guide posts which are vertically arranged, the inner bottom of the battery shell is provided with a plurality of guide sleeves, the guide posts and the guide sleeves are in one-to-one correspondence, the guide posts are in sliding fit with the corresponding guide sleeves, the shock absorption springs and the guide posts are in one-to-one correspondence, the shock absorption springs are sleeved on the corresponding guide posts, the lower part of the shock absorption frame body is provided with a plurality of radiating fins which are arranged in parallel, the upper ends of the radiating fins are fixed with upper rotating shafts which are rotatably connected with the shock absorption frame body, a driven frame is arranged below the, the shock absorption frame body is provided with a support frame capable of pushing the sliding block to move along the sliding groove, a chute which guides the driven frame to move towards the horizontal direction when the driven frame vertically moves is arranged in the battery shell, and the driven frame is provided with a sliding pin in sliding fit with the chute.

Preferably, the support frame includes interior bull stick and outer bull stick, and interior bull stick and outer bull stick are the X-shaped and arrange, and the slider figure is two, and interior bull stick lower extreme is articulated with a slider, and outer bull stick lower extreme is articulated with another slider, and the length direction of shock attenuation framework is perpendicular with last piece pivot, and it is parallel with lower piece pivot to go up the piece pivot, in the ascending both ends of shock attenuation framework length direction: one end of the shock absorption frame body is rotatably connected with the upper end of the inner rotating rod, and the other end of the shock absorption frame body is rotatably connected with the upper end of the outer rotating rod.

As preferred, the both ends of spout all are equipped with the dog fixed with battery case, dog and slider one-to-one, in dog and the slider that correspond: be equipped with the stopper between dog and the slider, the spout horizontal migration relatively of stopper is equipped with spacing spring between stopper and the dog, and the dog is connected to spacing spring one end, and the stopper is connected to the spacing spring other end.

Preferably, an upper translation rack is fixed on the limiting block, the upper translation rack is connected with the battery shell in a sliding mode, the slidable direction of the upper translation rack is horizontal, a pinion matched with the upper translation rack is arranged in the battery shell, a lower translation rack matched with the pinion is arranged below the pinion, the lower translation rack is connected with the battery shell in a sliding mode, the slidable direction of the lower translation rack is horizontal, a vent is arranged on the battery shell, a ventilation piece capable of covering the vent is arranged in the battery shell, and the lower translation rack is connected with the ventilation piece.

The invention has the beneficial effects that: the air duct has a reasonable structure, and can effectively separate and collect dust; the dust collection capacity is strong, the filtering effect is good, and the cleanness of the exhaust air can be guaranteed; the solar energy storage device is provided with an electricity storage structure, can work without wires, and has strong cooling, heat dissipation and shock resistance of each structure; the whole stability is good, and the noise is little.

Drawings

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

FIG. 2 is a schematic structural view of a dirt cup body of the present invention;

FIG. 3 is a schematic view of the internal construction of the dirt cup body of the present invention;

FIG. 4 is a top plan view of the present invention at the cup body;

FIG. 5 is a schematic view of a cross-section at the body of the cup of the present invention;

FIG. 6 is a schematic view of the present invention at the lid;

FIG. 7 is a schematic view of the structure at a secondary battery in embodiment 2 of the invention;

FIG. 8 is an enlarged view at A in FIG. 7;

fig. 9 is a schematic structural view of a heat sink in another state in embodiment 2 of the present invention:

FIG. 10 is an enlarged view of a partial structure of a secondary battery in embodiment 2 of the invention;

fig. 11 is an enlarged view at B in fig. 7.

In the figure: the dust cup comprises a main body 1, an air suction motor 11, a dust cup body 2, a cup body 21, a cup body air inlet channel 211, a hook blocking part 212, a cup cover 22, a filter frame body 221, an air inlet sponge 222, a pressing strip 223, a hook pressing head 2231, a cup bottom 23, a shunting cyclone cone cylinder 24, a dust suppression blocking rod 241, a tangential air inlet branch pipe 242, an air guide inner cylinder 243, a filter cylinder 25, a fine dust bin 26, a buckling piece 27, a rubber sheet 28, a suction port base 3, a battery shell 4, a battery pack 411, a shock absorption frame body 412, a driven frame 4121, a guide column 421, a shock absorption spring 4211, a guide sleeve 422, a cooling fin 43, an upper sheet rotating shaft 431, a lower sheet rotating shaft 432, a sliding groove 44, a sliding block 441, a chute 442, an inner rotating shaft 451, an outer rotating shaft 452, a stop block 46, a stop block 461, a limit spring 462, a pinion 47.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1: in the embodiment shown in fig. 1 to 6, a flow-splitting cyclone dust collector comprises a main body 1 and a suction motor 11, wherein a dust cup body 2 and a suction port base 3 for butt joint with a dust suction pipe are arranged on the main body, the dust cup body comprises a cup body 21, a cup cover 22 matched and connected with the cup body and a cup bottom 23 matched and connected with the cup body, a cup body air inlet communicated with the suction port base is arranged on the cup body, a plurality of flow-splitting cyclone cones 24 are arranged in the dust cup body, a tangential air inlet branch pipe 242 communicated with the interior of each flow-splitting cyclone cone is arranged on each flow-splitting cyclone cone, the upper end and the lower end of each flow-splitting cyclone cone are both open, the upper end opening is larger than the lower end opening, the upper end opening of each flow-splitting cyclone cone is communicated with an air inlet end of the suction motor through a middle air duct, the air outlet end of the suction motor is communicated with an outer air outlet arranged on the main, be equipped with in the lid wind channel and filter support body 221, filter the support body and be connected with the bowl cover, be equipped with air inlet sponge 222 on the filtration support body, air inlet sponge department is in all reposition of redundant personnel whirlwind awl section of thick bamboos tops, bowl cover and cup body joint, be equipped with layering 223 on the bowl cover internal surface, be equipped with on the bowl cover internal surface and be used for the top spring outside the layering lower extreme is to the bowl cover ejecting, layering upper end is articulated with the bowl cover internal surface, the layering lower extreme is equipped with the gib head 2231, be equipped with in the cup body and be used for keeping off the gib portion 212 that the gib head is close to the bowl cover, air inlet sponge is in the top of keeping off the gib portion and covers fender. The interior of the dust cup body is provided with a filter cartridge 25, the filter cartridge is provided with a plurality of filter mesh holes, the air inlet end of each tangential air inlet branch pipe is positioned in the filter cartridge, and the upper end of the filter cartridge extends upwards to the lower end of the filter frame body. The cup body air inlet is communicated with the suction port seat through a cup body air inlet duct 211, and the air inlet direction of the cup body air inlet duct is a tangential direction of the dust cup body. The filter cartridge lower extreme is equipped with fine ash storehouse 26, and the equal opening of upper and lower extreme in fine ash storehouse, fine ash storehouse upper end opening and filter cartridge lower extreme intercommunication have the opening bottom the cup body, are equipped with the rubber piece 28 on the bottom of the cup, and the bottom of the cup can rotate the opening relative to the cup body, is equipped with the buckle spare 27 that matches each other between bottom of the cup and the cup body, and when buckle spare lock, the bottom of the cup covers the opening of cup body bottom, and the rubber piece covers fine ash storehouse lower extreme opening.

The cup cover is clamped with the cup body, and after the cup cover is separated from the cup body, the lower end of the pressing strip (together with the hook blocking part) can be pushed to a position far away from the cup cover under the action of the push spring. When the cup cover needs to be covered again, the lower end of the pressing strip (together with the hook blocking part) contacts with the air inlet sponge firstly, so that the pressing strip is pressed to rotate, the hook blocking part is attached to the cup cover, and meanwhile, the cup cover can be smoothly clamped with the cup body. When the user forgets to put in the air inlet sponge, the blocking hook part is exposed due to the fact that the blocking of the air inlet sponge is lost, and at the moment, if the user wants to cover the cup cover, the hooking pressure head can enter the position below the blocking hook part and is moved (the pressing strip cannot continue to rotate), so that the cup cover cannot be covered. The hook blocking part can be fixedly connected with the cup body, the filter cylinder and even any one shunting cyclone cone cylinder.

Air (with dust and impurities) is sucked from the outside, enters the suction inlet seat and then enters the dust cup body from the air inlet of the cup body, and because the air inlet direction of the air inlet channel of the cup body is a tangential direction of the dust cup body, the air firstly carries out wall-adhering rotational flow in the dust cup body, the dust, the impurities and the like adhere to the wall, and then enters the filter cartridge, in the process, larger dust and impurities are screened off by a centrifugal sieve or are screened off by filter screen holes and fall into the dust cup body and out of the filter cartridge. Then, the air enters into each reposition of redundant personnel whirlwind awl section of thick bamboo with the tangential, forms the whirl in reposition of redundant personnel whirlwind awl section of thick bamboo, and the air is down pasting reposition of redundant personnel whirlwind awl section of thick bamboo inner wall spiral, forms the back pressure after the lower end assembles, upwards continues the discharge from reposition of redundant personnel whirlwind awl section of thick bamboo center again to thereby be further filtered through the air inlet sponge, at this in-process, when the air is down pasting reposition of redundant personnel whirlwind awl section of thick bamboo inner wall spiral, because the effect of centrifugal force, dust impurity is further separated, and fall into in the fine dust storehouse. The cup bottom can be opened, so that dust and impurities can be poured conveniently. In addition, because the storage battery is used for supplying power, structures such as a power line and the like are not needed, the influence of the position of a socket and the like is not considered during use, the degree of freedom is higher, and the operation is more convenient.

An air guide inner barrel 243 is arranged in the flow dividing cyclone cone barrel, and in one flow dividing cyclone cone barrel: the air guide inner cylinder is coaxial with the flow dividing cyclone cone cylinder, and at least one dust suppression stop lever 241 is arranged in the air guide inner cylinder. And a shock absorption pad is arranged at the bottom of the air suction motor. The dust suppression gear rod has a turbulent flow deceleration effect, avoids the direct discharge of air of rotational flow in the shunting cyclone cone cylinder, reduces the discharge speed of the air, and is used for blocking dust and impurities from being discharged along with airflow from the center, so that the effect of screening the dust and the impurities is improved integrally. The shock pad can be shock absorption sponge, shock absorption rubber and the like, and can play a role in shock absorption and noise reduction.

Example 2: the basic structure and implementation manner of this embodiment are the same as those of embodiment 1, and the difference is that, as shown in fig. 7 to 11, the bottom of the battery case 4 is provided with a main vent communicated with the outside, the top of the battery case is provided with a plurality of auxiliary vents communicated with the outside, the battery case is internally provided with a damping frame 412, the battery pack is connected with the damping frame, a plurality of damping springs 4211 are arranged between the damping frame and the bottom of the battery case, the lower end of the damping frame is provided with a plurality of vertically arranged guide posts 421, the inner bottom of the battery case is provided with a plurality of guide sleeves 422, the guide posts and the guide sleeves are in one-to-one correspondence, the guide posts and the corresponding guide sleeves are in sliding fit, the damping springs and the guide posts are in one-to-one correspondence, the damping springs are sleeved on the corresponding guide posts, the lower portion of the damping frame is provided with a plurality of parallel arranged cooling fins, the driven frame 4121 is arranged below the damping frame body, the lower end of the cooling fin is fixedly provided with a lower rotating shaft 432, the lower rotating shaft is rotatably connected with the driven frame, the inner wall of the battery shell is provided with a horizontal sliding groove 44 and at least one sliding block 441 in sliding fit with the sliding groove, the damping frame body is provided with a supporting frame capable of pushing the sliding block to move along the sliding groove, the battery shell is internally provided with a chute 442 for guiding the driven frame to move towards the horizontal direction when the driven frame vertically moves, and the driven frame is provided with a sliding pin in sliding fit with the chute.

The guide post and the guide sleeve are in sliding fit, so that the damping frame body can move up and down in the battery shell, the damping spring 4211 is arranged on the guide post, and when the damping frame body moves downwards, the damping spring is compressed. Because dust extraction is at the during operation, the main fuselage also can often move, in addition the motor that induced drafts lasts work, so must have vibrations always, lead to the battery vibrations, thereby influence the life of battery (mainly being the core component group battery), and damping spring between shock attenuation framework and the battery case makes a round trip the compression and stretches, can reduce the impact that the group battery dashed, can effectively cushion and the shock attenuation, thereby can effectively protect the battery, prolong its life.

The support frame includes interior bull stick 451 and outer bull stick 452, and interior bull stick and outer bull stick are the X-shaped and arrange, and the slider figure is two, and interior bull stick lower extreme is articulated with a slider, and outer bull stick lower extreme is articulated with another slider, and the length direction and the last piece pivot of shock attenuation framework are perpendicular, and it is parallel with lower piece pivot to go up the piece pivot, in the ascending both ends of shock attenuation framework length direction: one end of the shock absorption frame body is rotatably connected with the upper end of the inner rotating rod, and the other end of the shock absorption frame body is rotatably connected with the upper end of the outer rotating rod. As shown in fig. 7, 8, and 10, the lower end of the inner rotating rod extends to the left side of the battery case, the lower end of the outer rotating rod extends to the right side of the battery case, and the inner rotating rod and the outer rotating rod are arranged in an X shape. After the battery pack is installed on the damping frame body, the damping frame body moves downwards to compress the damping springs below under the action of self gravity, and meanwhile, the radiating fins and the driven frame descend, so that the sliding pins of the driven frame are located in the middle of the inclined grooves, and the radiating fins are in a vertical state or a state close to the vertical state. When the heat sink is in a static state, the heat can be dissipated by the heat transfer capacity of the heat sink. In the process of the movable use of the dust suction device (or when the work vibration of the air suction motor is large), the vibration of the battery shell is large, and at the moment, the vertical displacement of the battery pack (the damping frame body) relative to the battery shell is obvious, so that the radiating fins can be driven to move up and down. When the shock absorption frame moves downwards, the radiating fins and the driven frame also move downwards along with the shock absorption frame, the driven frame moves towards the lower end of the inclined groove under the guiding action of the inclined groove, the driven frame moves downwards and moves rightwards under the guiding action of the inclined groove, and the radiating fins rotate anticlockwise by an angle relative to the shock absorption frame; when the shock absorption frame body moves upwards, the radiating fins and the driven frame also move upwards, the sliding pin moves towards the middle of the inclined groove, at the moment, the driven frame moves leftwards when moving upwards under the guiding action of the inclined groove, and the radiating fins rotate clockwise relative to the shock absorption frame body to the vertical position; when the shock absorption frame body moves further upwards, the radiating fins and the driven frame also continue to move upwards simultaneously, the sliding pins move towards the upper ends of the inclined grooves, the driven frame continues to move leftwards while moving upwards under the guiding action of the inclined grooves, and the radiating fins rotate clockwise relative to the shock absorption frame body by an angle. To sum up, when the up-and-down reciprocating motion of shock attenuation framework, except driving the follower and reciprocating together, also can drive the follower and make a round trip to swing about, make the fin also reciprocating rotation simultaneously, thereby form the effect of "fan wind", can drive the air constantly downwards (from main vent) discharge, and (assist the vent) on the battery case then can constantly enter the air, thereby can form the heat dissipation air current in the battery case, can effectively generate heat to group battery etc., long-pending hot part dispels the heat, thereby automatic wind-guiding heat dissipation has been realized when subduing vibrations, and the self heat conductivity of fin combines, more can effectively ensure the difficult long-pending heat of battery case, can effectively reduce battery temperature, prolong its life.

The both ends of spout all are equipped with the dog 46 fixed with battery case, dog and slider one-to-one, in dog and the slider that correspond: a limit block 461 is arranged between the stop block and the sliding block, the limit block can move horizontally relative to the sliding groove (the limit block can also be directly matched with the sliding groove in a sliding way), a limit spring 462 is arranged between the limit block and the stop block, one end of the limit spring is connected with the stop block, and the other end of the limit spring is connected with the limit block. When the shock absorption frame body moves up and down to absorb shock, the inner rotating rod 451 and the outer rotating rod 452 can be driven to move, the upper end of the inner rotating rod and the upper end of the outer rotating rod rotate relative to the shock absorption frame body, and the lower end of the inner rotating rod and the lower end of the outer rotating rod can drive the sliding block to slide. Wherein, move down when the shock attenuation framework and compress the damping spring back, the slider still continues to when moving to the dog, thereby the stopper can compress spacing spring with the slider contact, and damping spring and spacing spring combined action provide the restoring force this moment to make the slider can stop as early as possible and reverse movement resets, avoid the slider to strike, collide battery case, and noise level can be reduced.

An upper translation rack 471 is fixed on the limiting block, the upper translation rack is connected with the battery shell in a sliding mode, the slidable direction of the upper translation rack is horizontal, a pinion 47 matched with the upper translation rack is arranged in the battery shell, a lower translation rack 472 matched with the pinion is arranged below the pinion, the lower translation rack is connected with the battery shell in a sliding mode, the slidable direction of the lower translation rack is horizontal, a vent 48 is arranged on the battery shell, a ventilation piece 473 capable of covering the vent is arranged in the battery shell, and the lower translation rack is connected with the ventilation piece. When the slider contacts the stopper, when promoting the stopper and removing, through last translation rack and pinion drive on the stopper, translation rack translation under the promotion, make the ventilating piece leave the vent, open the vent, thereby further improve the inside and outside circulation of air effect of power supply shell, ensured when battery output current grow, generate heat when becoming more, can have higher radiating effect (battery output current grow, then the motor that induced drafts rotates the aggravation, vibrations are bigger relatively this moment, generate heat more relatively).

Claims

1. A shunting cyclone dust collector comprises a main body and an air suction motor, wherein a dust cup body and a suction inlet seat used for being butted with a dust suction pipe are arranged on the main body, and the dust collector is characterized in that the dust cup body comprises a cup body, a cup cover matched and connected with the cup body and a cup bottom matched and connected with the cup body, a cup body air inlet communicated with the suction inlet seat is arranged on the cup body, a plurality of shunting cyclone cone cylinders are arranged in the dust cup body, tangential air inlet branch pipes are arranged on the shunting cyclone cone cylinders, the upper ends and the lower ends of the shunting cyclone cone cylinders are both open, the upper end opening is larger than the lower end opening, the upper end opening of each shunting cyclone cone cylinder is communicated with an air inlet end of the air suction motor through a middle air channel, an air outlet end of the air suction motor is communicated with an outer air outlet arranged on the main body, the middle air channel comprises a cover air channel arranged in the cup cover, the air inlet sponge is arranged above all the shunting cyclone conical cylinders, the cup cover is clamped with the cup body, a pressing strip is arranged on the inner surface of the cup cover, a top spring for ejecting the lower end of the pressing strip out of the cup cover is arranged on the inner surface of the cup cover, the upper end of the pressing strip is hinged with the inner surface of the cup cover, a hooking pressure head is arranged at the lower end of the pressing strip, a hooking part for blocking the hooking pressure head from approaching the cup cover is arranged in the cup body, the air inlet sponge is arranged above the hooking part and completely covers the hooking part, a storage battery for supplying power to an air suction motor is arranged on the main; the battery comprises a battery shell, a battery pack, a battery shell, a plurality of auxiliary ventilation openings, a damping frame body, a plurality of guide posts, a plurality of guide sleeves, a plurality of upper rotating shafts, a plurality of driven frames, a plurality of lower rotating shafts, a plurality of horizontal sliding grooves and at least one sliding block, wherein the main ventilation openings are arranged at the bottom of the battery shell, the damping frame body is arranged in the battery shell, the battery pack is connected with the damping frame body, a plurality of damping springs are arranged between the damping frame body and the bottom of the battery shell, the guide posts are vertically arranged at the lower end of the damping frame body, the guide posts are arranged at the inner bottom of the battery shell, the guide posts are in one-to-one correspondence with the guide sleeves and are in sliding fit with the corresponding guide sleeves, the damping springs are in one-to-one correspondence with the guide posts, the damping springs are sleeved on the corresponding guide posts, a plurality of radiating fins which are arranged in parallel are, the shock absorption frame body is provided with a support frame capable of pushing the sliding block to move along the sliding groove, a chute which guides the driven frame to move towards the horizontal direction when the driven frame vertically moves is arranged in the battery shell, and the driven frame is provided with a sliding pin in sliding fit with the chute.

2. The cyclone dust collector as claimed in claim 1, wherein a filter cartridge is provided in the cup body, the filter cartridge has a plurality of filter mesh openings, and the air inlet end of each of the tangential air inlet branch pipes is disposed in the filter cartridge.

3. The cyclone dust collector of claim 1, wherein the cyclone cone comprises an inner wind guiding barrel, and in one cyclone cone: the air guide inner cylinder is coaxial with the flow-dividing cyclone cone cylinder, and at least one dust suppression stop rod is arranged in the air guide inner cylinder.

4. A split-flow cyclone dust collector as claimed in claim 1, 2 or 3 wherein said cup body inlet opening communicates with the suction inlet socket through a cup body inlet duct, the inlet duct of the cup body being directed tangentially to the dirt cup body.

5. The cyclone dust collector as claimed in claim 2, wherein the filter cartridge has a fine dust bin at a lower end thereof, the fine dust bin has an upper end and a lower end both open, the upper end of the fine dust bin is open to the lower end of the filter cartridge, the bottom of the cup body has an opening, the bottom of the cup is provided with a rubber sheet thereon, the bottom of the cup can be opened by rotating relative to the cup body, a matching fastener is provided between the bottom of the cup and the cup body, when the fastener is fastened, the bottom of the cup covers the opening at the bottom of the cup body, and the rubber sheet covers the opening at the lower end of the fine dust bin.

6. The cyclone dust collector as claimed in claim 1, wherein the supporting frame comprises an inner rotating rod and an outer rotating rod, the inner rotating rod and the outer rotating rod are arranged in an X shape, the number of the sliding blocks is two, the lower end of the inner rotating rod is hinged with one sliding block, the lower end of the outer rotating rod is hinged with the other sliding block, the length direction of the damping frame body is perpendicular to the upper rotating shaft, the upper rotating shaft is parallel to the lower rotating shaft, and the damping frame body is arranged at two ends in the length direction: one end of the shock absorption frame body is rotatably connected with the upper end of the inner rotating rod, and the other end of the shock absorption frame body is rotatably connected with the upper end of the outer rotating rod.

7. The cyclone dust collector of claim 1 or 6, wherein the two ends of the chute are provided with stoppers fixed to the battery case, the stoppers are in one-to-one correspondence with the sliders, and in the corresponding stoppers and sliders: be equipped with the stopper between dog and the slider, the spout horizontal migration relatively of stopper is equipped with spacing spring between stopper and the dog, and the dog is connected to spacing spring one end, and the stopper is connected to the spacing spring other end.

8. The cyclone vacuum cleaner as claimed in claim 7, wherein the stopper has an upper translational rack fixed thereon, the upper translational rack is slidably connected to the battery housing, the upper translational rack has a horizontal slidable direction, the battery housing has a pinion engaged with the upper translational rack, the pinion has a lower translational rack engaged with the pinion below, the lower translational rack is slidably connected to the battery housing, the lower translational rack has a horizontal slidable direction, the battery housing has a vent-covering ventilation flap, and the lower translational rack is connected to the vent-covering flap.