CN215272430U - Remove wind and vacuum cleaner - Google Patents

Abstract

The utility model relates to a winding removing device and a vacuum dust collection device, wherein the winding removing device comprises a winding removing mechanism, an installation mechanism and a power mechanism, and a track is formed on the installation mechanism; the power mechanism comprises a driving piece and a transmission assembly which are arranged on the installation mechanism, the driving piece drives the winding removing mechanism to rotate through the transmission assembly, and meanwhile, the winding removing mechanism is driven to reciprocate along the track. The utility model discloses a remove wind because adopt the drive of hold-in range wheel subassembly to remove winding mechanism and rotate and still follow track reciprocating motion simultaneously, can guarantee the effect of cutting when enlarging work area to the winding hair cuts on convenient round brush or other cleaning apparatus to the dust catcher, for example remove winding mechanism and can completely cut off winding hair on the whole round brush along the axial displacement of round brush, the cutting effect is better.

Description

Remove wind and vacuum cleaner

Technical Field

The utility model relates to an electrical equipment technical field especially relates to a remove wind and vacuum cleaner.

Background

The dust collector drives the blades to rotate at a high speed by using the motor, generates air negative pressure in the sealed shell, absorbs dust and debris, and brings a convenient cleaning tool for our life. However, in daily use, the dust collector often cannot smoothly treat tangled hairs of people or pets, so that the problem of how to effectively solve the tangled hairs of the dust collector is a concern of people.

At present, only a small part of dust collectors in the market have the winding removing function, and the dust collectors with the winding removing function generally cut off hairs by arranging the winding removing device in the rolling brush and utilizing the mutual friction between a pair of straight blades in the winding removing device, so that the problem that the hair and the like are wound on the rolling brush is effectively solved. However, the dust collector in the winding removing mode can cause potential damage to the long-hair carpet in the dust cleaning process, and the manufacturing cost is high; in addition, the hair can be cut off by using the friction between the straight blade in the winding removing device and the rotary rolling brush boss, however, in this way, the attaching degree of the straight blade and the rolling brush boss is difficult to ensure, and the straight blade and the rolling brush are easy to shake or deform in the friction process, so that the winding removing efficiency is not high. Moreover, for the rolling brush with the mounting shells at the two ends, the anti-winding device for the rolling brush in the prior art cannot effectively process the winding between the two ends of the rolling brush and the mounting shells. Therefore, it is necessary to design a special de-winding device to solve the problem of the winding of the rolling brush and the like.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages and deficiencies of the prior art, the present invention provides a winding removing device and a vacuum dust collecting device, which solves the technical problem that the hair wound on the winding member is not easy to be cleaned.

In order to achieve the above object, the utility model discloses a main technical scheme include:

in a first aspect, the present invention provides a wind removing device, which includes:

a winding removing mechanism;

the mounting mechanism is provided with a track; the mounting mechanism comprises a mounting rack and a support frame arranged on the mounting rack, and the support frame is provided with the track;

the power mechanism comprises a driving piece and a transmission assembly which are both arranged on the mounting mechanism, and the driving piece and the transmission assembly are both arranged on the mounting frame; the driving piece drives the winding removing mechanism to rotate through the transmission assembly and simultaneously drives the winding removing mechanism to reciprocate along the track.

Optionally, the winding removing mechanism includes a blade holder and a blade assembly disposed on the blade holder, and the transmission assembly drives the blade holder to reciprocate along the track and drives the blade holder to rotate.

Optionally, the blade assembly includes a fixed blade and a rotary blade disposed to be close to the fixed blade, the rotary blade is fixedly connected to the blade holder, and the fixed blade is rotatably sleeved on the blade holder.

Optionally, the transmission assembly can drive the blade holder to move from the first end to the second end of the track and rotate along a first direction; the transmission assembly can drive the blade fixing frame to move from the second end to the first end of the track and rotate along a second direction, and the first direction is opposite to the second direction.

Optionally, the rotary blade includes a mounting disc capable of being fixedly mounted on the blade fixing frame, and a first blade disposed on the mounting disc, the first blade extends along a radial direction of the mounting disc, and opposite sides of the first blade are respectively provided with a first cutting edge and a second cutting edge;

the fixed blade comprises a lantern ring which is rotatably sleeved on the blade fixing frame, and a second blade and a third blade which are arranged on the lantern ring, wherein the second blade is provided with a third cutting edge which is arranged opposite to the first cutting edge, and the third blade is provided with a fourth cutting edge which is arranged opposite to the second cutting edge;

the blade holder is configured to be cut by the first blade edge of the first blade when rotating in the first direction, and to be cut by the second blade edge of the first blade when rotating in the second direction.

Optionally, the unwinding device includes at least one of the following three technical solutions:

first, the free ends of the first and second blades are relatively far apart to form a barb;

secondly, the mounting disc is provided with at least two first blades;

thirdly, the free end edge of the first blade is an arc-shaped edge.

Optionally, the winding removing device further comprises a housing, a groove is formed in the upper surface of the housing, and a winding removing opening is formed in the groove.

Optionally, a guide slot parallel to the rail is further provided on one side of the winding opening, and the fixed blade can reciprocate along the guide slot; the fixed blade is further provided with a guide post, and the guide post is connected with the guide groove in a sliding mode.

Optionally, the side wall of the groove is formed with a guide slope;

and/or an elastic plugging piece is arranged at the winding removing opening and can plug at least part of the winding removing opening.

Optionally, the transmission assembly is a synchronous pulley assembly, the synchronous pulley assembly comprising:

the driven gear is arranged on the winding removing mechanism;

a tension gear disposed on the mounting mechanism;

a drive gear disposed on the drive member; and

the cover is located driven gear tensioning gear with hold-in range on the drive gear, drive gear passes through the hold-in range drives driven gear rotates and follows track reciprocating motion.

Optionally, the tensioning gear comprises a first tensioning gear disposed at a first end of the track and a second tensioning gear disposed at a second end of the track, the driving gear is spaced from the track, and the first tensioning gear, the second tensioning gear and the driving gear support the synchronous belt as a triangular structure.

Optionally, the drive gear is disposed at a first end of the track, and the tension gear is disposed at a second end of the track opposite the first end; the drive gear the tensioning gear supports the synchronous belt into a linear structure.

In a second aspect, the present invention further provides a vacuum cleaner, which comprises a vacuum cleaner and a winding device as described above, wherein the winding device can remove the winding on the vacuum cleaner.

Optionally, the vacuum cleaner further comprises a controller, and the controller is respectively connected with the driving member and the cleaner; and/or

The dust collector comprises a dust collector main machine and a cleaning head, the cleaning head comprises a cleaning head shell and a rolling brush arranged on the cleaning head shell, and the cleaning head shell or the rolling brush can be arranged on the winding removing device.

Optionally, the vacuum cleaner is a dry vacuum cleaner or a wet vacuum cleaner.

The utility model has the advantages that: the utility model discloses a remove wind, owing to adopt the drive assembly drive to remove winding mechanism and rotate and still follow track reciprocating motion simultaneously, can guarantee the effect of cutting when enlarging work area to the winding hair cuts on convenient round brush or other cleaning apparatus to the dust catcher, for example remove winding mechanism along the axial displacement of round brush and can completely cut off winding hair on the whole round brush, the better and labour saving and time saving of cutting effect. Furthermore, the de-entangling apparatus may be used separately from the cleaner so as not to interfere with each other and cause damage to the carpet or floor.

Drawings

Fig. 1 is a schematic perspective view of a winding removing device according to the present invention;

FIG. 2 is a perspective view of the vacuum cleaner of the present invention;

FIG. 3 is a schematic structural view of the de-winding apparatus of FIG. 1 with the upper cover removed;

FIG. 4 is a schematic cross-sectional view of the de-spooling apparatus of FIG. 1;

FIG. 5 is an enlarged cross-sectional view of a portion of the structure of FIG. 3;

FIG. 6 is an enlarged cross-sectional view of the de-spooling mechanism of the present invention;

FIG. 7 is an exploded schematic view of the de-wind mechanism of FIG. 6;

fig. 8 is a schematic cross-sectional view of a unwinding device according to another embodiment of the present invention.

[ description of reference ]

1: a housing; 11: an upper cover; 111: a groove; 112: a guide slope; 113: a guide groove; 114: removing the winding opening; 12: a bottom shell: 2: a winding removing mechanism; 21: a blade holder; 211: a driven gear; 212: a blade mounting end; 22: fixing a blade; 221: a guide post; 222: a second blade; 2221: a third blade; 223: a third blade; 2231: a fourth blade; 23: a rotary blade; 231: a first blade; 2311: a first blade; 2312: a second blade; 24: a bolt; 3: an installation mechanism; 31: a mounting frame; 32: a track; 4: a power mechanism; 41: a drive member; 42: a drive gear; 43: a synchronous belt; 45: a tension gear;

100: a winding removing device; 200: a vacuum cleaner.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings. In which the terms "upper", "lower", etc. are used herein with reference to the orientation of fig. 4.

The utility model provides a winding removing device 100, as shown in fig. 3, 4 and 5, which comprises a winding removing mechanism 2, an installation mechanism 3 and a power mechanism 4, wherein a track 32 is formed on the installation mechanism 3; the power mechanism 4 comprises a driving part 41 and a transmission component which are both arranged on the mounting mechanism 3, and the driving part 41 drives the winding removing mechanism 2 to rotate and simultaneously reciprocate along the track 32 through the transmission component.

The utility model discloses a remove wind 100, owing to adopt the drive assembly drive to remove winding mechanism 2 and rotate and still follow track 32 reciprocating motion simultaneously, can guarantee the effect of cutting when enlarging work area to the convenience waits for to remove winding hair on the winding piece to the round brush of dust catcher 200 or other cleaning appliance, for example, remove winding mechanism 2 and can completely cut off winding hair on the whole round brush along the axial displacement of round brush, better and labour saving and time saving of cutting effect. The specific structure of the rail 32 may be appropriately selected according to actual needs, and the winding mechanism 2 may be guided to reciprocate along the rail.

The usage of the winding removing device 100 can be selected according to actual needs, for example, the winding removing device 100 can be directly disposed in the cleaning head housing of the vacuum cleaner, and the winding removing mechanism 2 is disposed opposite to the rolling brush of the vacuum cleaner, so as to cut the hair wound on the rolling brush during or after the operation of the vacuum cleaner. Preferably, the winding removing device 100 is used separately from the cleaner 200, the winding removing device 100 and the cleaner floor brush do not interfere with each other, and do not damage the carpet or the floor, and the volume and the weight of the cleaner floor brush can be reduced, and the manufacturing and using cost of the cleaner floor brush can be reduced.

As shown in fig. 6, the winding removing mechanism 2 includes a blade holder 21 and a blade assembly disposed on the blade holder 21, and the transmission assembly drives the blade holder 21 to reciprocate along the rail 32 and drives the blade holder 21 to rotate. The blade assembly may be, among other things, a blade in various forms, such as a disk blade or a ring blade, among others. The transmission component drives the blade fixing frame 21 to move, and meanwhile, the transmission component can drive the blade fixing frame 21 to rotate, so that the blade component can effectively cut hair in the moving and rotating process.

In a preferred embodiment, referring to fig. 6 and 7, the blade assembly includes a fixed blade 22 and a rotary blade 23 disposed adjacent to the fixed blade 22, the rotary blade 23 is fixedly connected to the blade holder 21, the fixed blade 22 is rotatably sleeved on the blade holder 21, and the fixed blade 22 can reciprocate along a direction parallel to the track 32. Wherein, the rotary blade 23 can move along with the blade fixing frame 21, namely, the movement and the rotation can be realized simultaneously; the fixed blade 22 can rotate relative to the blade holder 21, that is, the fixed blade 22 does not rotate along with the blade holder 21, and the fixed blade 22 is limited to reciprocate only in a direction parallel to the track 32, so that the rotary blade 23 can rotate relative to the fixed blade 22 during the integral movement process to complete the shearing action, and the rotary blade 23 and the fixed blade 22 form a shearing force similar to a scissor type during the movement process.

Specifically, the transmission assembly is capable of driving the blade holder 21 to move from the first end to the second end of the rail 32 and to rotate in a first direction (i.e., forward rotation); the transmission assembly is capable of driving the blade holder 21 to move from the second end to the first end of the track 32 and to rotate (i.e., reverse) in a second direction, wherein the first direction is opposite to the second direction. Through the combination of the reciprocating motion of the blade fixing frame 21 on the rail and the forward and reverse rotation of the blade fixing frame 21, the winding removing area and efficiency can be greatly improved, and the use experience of a user can be improved.

Moreover, in the mode of realizing shearing by the relative rotation of the rotary blade 23 and the fixed blade 22, the cutting edges of the rotary blade 23 and the fixed blade 22 are both located on the side edges of the blades, and during the relative rotation of the two blades, the cutting edges on the respective side edges will approach or move away from each other to realize shearing, without disposing the cutting edges at the free end of the rotary blade 23. When the roller brush of the cleaner 200 waits for the removal of the hair entangled in the entangled member, the free end of the rotary blade 23 contacts the outer circumferential surface of the roller brush during the rotation, and the free end does not have a blade edge and does not damage the roller brush, and the hair on the surface of the roller brush is brought up by the blade and contacts the blade edge of the blade side, thereby being cut off. By adopting the combined structure of the rotating blade 23 and the fixed blade 22, the hair can be cut efficiently, and meanwhile, the winding part to be removed can be skillfully protected, so that the problem which troubles users for a long time is solved.

Referring again to fig. 7, the rotary blade 23 specifically includes a mounting plate capable of being fixedly mounted on the blade mount 21 and a first blade 231 disposed on the mounting plate, and the mounting plate may be specifically fixedly mounted on the blade mounting end 212 of the blade mount 21 by a bolt 24 (see fig. 6). The first blade 231 extends in the radial direction of the mounting disc, and the first blade 231 is provided on opposite sides thereof with a first blade 2311 and a second blade 2312, respectively. The fixed blade includes a collar rotatably fitted on the blade holder 21, and a second blade 222 and a third blade 223 provided on the collar, the second blade 222 is provided with a third blade 2221 arranged opposite to the first blade 2311, and the third blade 223 is provided with a fourth blade 2231 arranged opposite to the second blade 2312. The cutting is performed by the first blade 2311 of the first blade 231 when the blade holder 21 rotates in the first direction, and the cutting is performed by the second blade 2312 of the first blade 231 when the blade holder 21 rotates in the second direction. Therefore, the rotary blade 23 can perform the shearing operation in cooperation with the fixed blade 22 regardless of the forward rotation or the reverse rotation.

Moreover, the free ends (i.e., the ends away from the mounting plate) of the first and second blades 2311 and 2312 are relatively far away from each other to form barbs, so that hairs on the to-be-removed winding piece can be hooked conveniently, and then the hairs are cut by the rotary blade 23 in cooperation with the fixed blade 22 by contacting the first and second blades 2311 and 2312. In addition, the collar of the fixed blade 22 can be engaged between the stopper shoulder of the blade holder 21 and the rotary blade 23. The second blade 222 and the third blade 223 extend substantially in the radial direction of the collar, one side of the second blade 222 is provided with a third cutting edge 2221, one side of the third blade 223 is provided with a fourth cutting edge 2231, the first cutting edge 2311 is arranged corresponding to the third cutting edge 2221, and the second cutting edge 2312 is arranged corresponding to the fourth cutting edge 2231, so that the rotary blade 23 can cooperate with the fixed blade 22 to perform a shearing action regardless of whether the rotary blade 23 rotates in the forward direction or in the reverse direction.

The number of the first blades 231 may be appropriately selected according to the winding removal requirement, for example, two first blades 231 may be provided on the rotary blade 23 in the illustrated embodiment, and one, three or more first blades 231 may be provided in case of further necessity. The free end edge of the rotary blade 23 is preferably an arc-shaped edge, so that damage to the winding member to be removed can be further reduced.

Further, as shown in fig. 1 and 2, the winding removing device 100 further includes a housing 1, and the winding removing mechanism 2, the mounting mechanism 3, and the power mechanism 4 are disposed inside the housing 1, so as to facilitate independent use of the winding removing device 100. The upper surface of the shell 1 is provided with a groove 111, a winding removing opening 114 is arranged in the groove 111, and at least part of the blade assembly can extend out of the winding removing opening 114, so that hair on a winding piece to be removed can be conveniently cut, and the hair or sundries can be prevented from entering the shell 1 to influence the work of the power mechanism 4. Alternatively, in another embodiment, the unwinding opening 114 may be moved from the bottom of the groove 111 to the side of the groove 111 to prevent the cut-off hair, dust, and other foreign matter from entering the inside of the housing 1. The housing 1 may include an upper cover 11 and a bottom case 12, which are butted against each other, so as to facilitate mounting and dismounting of the structure inside the housing 1.

Further, a guide groove 113 (see fig. 4) parallel to the rail 32 is provided on the side wall on the side of the winding opening 114, and the fixed blade 22 can reciprocate along the guide groove 113. The fixed blade 22 (specifically, the second blade 222 and/or the third blade 223) is further provided with a guiding post 221, and the guiding post 221 is slidably connected with the guiding slot 113. The fixed blade 22 can be moved in a direction parallel to the rail 32 by the cooperation of the guide slot 113 and the guide post 221, and the fixed blade 22 does not rotate with the rotation of the blade holder 21 but linearly reciprocates only along the guide slot 113.

In addition, referring again to FIG. 1, the side walls of the groove 111 are formed with guide ramps 112 to facilitate alignment of the to-be-unwound member with the unwinding opening 114 in the groove 111. In order to facilitate the placement of the winding piece, besides the groove 111, a guiding inclined plane 112 is further arranged on the housing 1, the guiding inclined plane 112 is arranged at the joint of the groove 111 and the housing 1, the transition between the housing 1 and the groove 111 is smooth due to the existence of the guiding inclined plane 112, and the winding piece can be easily placed into the groove 111. Optionally, an elastic closure is provided on the edge of the detwist opening 114 to prevent hairs or foreign objects from entering the housing 1 through the detwist opening 114. The specific structure of the elastic plugging piece can be properly selected according to the actual requirement, for example, a rubber strip, a nylon felt strip and the like. Furthermore, a dust collecting box may be provided in the detwisting means to collect the hairs or dust entering from the detwisting openings 114 to prevent the hairs or dust from spreading in the detwisting means.

The side wall of the groove 111 is also provided with an avoiding groove, and the shape and the size of the avoiding groove can be properly selected according to the structure of the to-be-removed winding piece which is matched with the winding removing device.

Further, the transmission assembly may be a synchronous pulley assembly, a sprocket assembly, a rack and pinion assembly, etc., as long as it is possible to realize that the unwinding mechanism 2 can perform both linear reciprocating motion and rotation. In addition, if necessary, the transmission assembly may also include a linear motion transmission assembly and an auxiliary driving member, and the unwinding mechanism 2 is driven by the linear motion driving assembly to perform linear reciprocating motion and driven by the auxiliary driving member to perform rotation. Referring to fig. 3, 4 and 5 again, a synchronous pulley assembly is described as a preferred embodiment, the synchronous pulley assembly includes a driven gear 211 disposed on the unwinding mechanism 2, a tension gear 45 disposed on the mounting mechanism 3, a driving gear 42 disposed on the driving member 41, and a synchronous belt 43 sleeved on the driven gear 211, the tension gear 45 and the driving gear 42, and the driving gear 42 drives the driven gear 211 to rotate and reciprocate along the track 32 through the synchronous belt 43. The driving member 41 may be a direct current motor capable of rotating forward and backward, a driving gear 42 is mounted on an output shaft of the direct current motor, and the unwinding mechanism 2 can be driven to linearly reciprocate along the rail 32 by the forward rotation and the backward rotation of the driving gear 42. Direct current motor can realize removing the winding action many times in the short time, and the winding hair on the winding piece is waited for to remove by the even cutting round brush, and the structure is small, easily realizes that electric control need not artifically, and intelligent sense is strong, and user experience degree is good.

In order to improve the reliability of the synchronous pulley assembly, the tension gear 45 includes a first tension gear provided at a first end of the rail 32 and a second tension gear provided at a second end of the rail 32, the driving gear 42 is spaced apart from the rail 32, and the synchronous belt 43 is sleeved on the tension gear 45. Referring to fig. 4, the first tensioning gear, the second tensioning gear and the driving gear 42 cooperate to support the synchronous belt 43 as a triangular structure, so that the synchronous belt pulley assembly can be ensured to work stably. In another embodiment, referring to fig. 8, a drive gear 42 is disposed at a first end of the track 32 and a tension gear 45 is disposed at a second end of the track 32, the first and second ends of the track 32 being disposed opposite each other, the drive gear 42 and the tension gear 45 supporting the timing belt 43 in a linear configuration. So set up, can be under the stable prerequisite of assurance function, simplify synchronous pulley subassembly's structure, save installation cost of manufacture.

Further, when the driving assembly is a sprocket assembly, the specific structure of the sprocket assembly may be set with reference to a synchronous pulley assembly. When the transmission assembly is a rack-and-pinion assembly, the rack-and-pinion assembly may include a slave gear disposed on the unwinding mechanism 2, a master gear disposed on the driving member 41, and racks respectively capable of meshing with the master gear and the slave gear, wherein the master gear is capable of driving the racks to reciprocate along the track 32, so as to drive the slave gear to rotate and reciprocate along the track 32.

Moreover, installation mechanism 3 includes mounting bracket 31 and the support frame of setting on mounting bracket 31, is provided with track 32 on the support frame, and driving piece 41 and drive assembly all with set up on mounting bracket 31 to the relative position to track 32 and hold-in range 43 is adjusted to the convenience, and then can adapt to the different installation that removes winding mechanism 2.

Further, the present invention also provides a vacuum cleaner, which comprises a vacuum cleaner 200 and the winding device 100, wherein the winding device 100 can be used for winding the rolling brush of the vacuum cleaner 200. The winding removing device 100 can completely cut the hair wound on the whole rolling brush by moving along the axial direction of the rolling brush, and the cutting effect is better, and the time and the labor are saved. Wherein, the dust collector can be a dry dust collector or a wet dust collector.

Preferably, the vacuum cleaner further comprises a controller, and the controller is respectively connected with the driving member and the cleaner.

In one embodiment, a hair detection device is provided on the de-spooling device, the hair detection mechanism comprising a processor and an infrared pair of tubes (not limited to) comprising a transmitting end and a receiving end. When the rolling brush of the dust collector 200 is placed in the winding removing device 100, the processor on the hair detection mechanism judges that the bristles of the rolling brush decorated by vacuum dust collection need to be removed in the rolling brush of the dust collector 200 according to the detected abnormal infrared signal, informs the controller, and the controller starts to automatically control winding removal.

In the case where the unwinding device 100 and the vacuum cleaner 200 are independent of each other, the controller may be connected by a circuit or a signal, as long as the unwinding device 100 and the vacuum cleaner 200 can be controlled synchronously or sequentially. That is, in the state where the vacuum cleaner 200 is turned off, the roll brush is placed in the groove 111 of the detangling apparatus 100, the detangling apparatus 100 is controlled by the controller to be started to perform the detangling operation, and after the hair is cut off, the vacuum cleaner 200 is controlled by the controller to be started to start the roll brush, and the cut hair is sucked into the vacuum cleaner 200 by the vacuum cleaner 200.

The position of the controller can be appropriately selected according to the use requirement, for example, the controller is arranged in the dust collector 200, and the controller can be integrated with a control main board of the dust collector 200. In addition, the controller may be disposed inside the housing 1 of the winding device 100, and the housing 1 may be further provided with a communication contact, the controller being electrically connected to the communication contact, the communication contact being disposed on the surface of the housing 1, and the controller being disposed inside the housing 1 and electrically connected to the driving member 41. The positive and negative rotation control of the direct current motor, the state indication of the winding removing device 100, the communication with external equipment and the like, the operations needing data processing and logic execution are all completed through a controller, and the controller is connected with each data acquisition interaction end and each control execution end through a circuit; the controller can directly communicate with the external device through the communication contact, and can establish wireless communication (including but not limited to a WiFi protocol, a Bluetooth protocol and the like) with the external device after finishing identity recognition and authentication with the external device through the communication contact. The communication contact arranged on the shell 1 can complete data communication and can also perform power communication, and the communication contact can be a metal contact or a wireless non-contact.

In addition, the wind removing apparatus 100 may be integrated with the cleaner 200. The cleaner 200 includes a cleaner main body and a cleaning head including a cleaning head housing and a roll brush installed at the cleaning head housing, and the wind removing apparatus 100 is installed at the cleaning head housing or the roll brush.

In one embodiment, the de-winding device 100 is mounted within the cleaning head housing with the cut portion of the de-winding mechanism 2 near the maximum radius of the roller brush. Wherein the detangling mechanism 2 is disposed opposite the roll brush when the detangling apparatus 100 is mounted to the cleaning head housing, thereby cutting the hair entangled to the roll brush during or after the operation of the cleaner 200.

In another example, the de-winding device 100 is installed in the roller brush, the installation mechanism and the power mechanism are integrated in the space inside the roller brush, the cutting part of the de-winding mechanism is exposed from a slit longitudinally arranged on the surface of the inner roller of the roller brush and can move back and forth along the longitudinal direction of the roller brush, the upper limit height of the cutting part does not exceed the maximum height of the hard hair on the roller brush, and the hair wound on the roller brush is cut during or after the operation of the dust collector 200. The user can set the unwinding device 100 at a proper position according to actual use requirements.

Further, the present invention also provides a vacuum cleaner support, which comprises the winding removing device 100 and a support body for supporting a vacuum cleaner. The dust collector bracket can be used for accommodating a dust collector.

Preferably, the holder main body is provided with a charging device for charging the cleaner and/or an accessory storage device for storing accessories of the cleaner. The bracket main body can be used for supporting the dust collector, the bracket main body can be arranged on the winding removing device 100 or can be independently provided with a bracket main body base, wherein the winding removing device is preferably formed into the base of the dust collector bracket, and the bracket main body is arranged on the winding removing device 100, so that the structure of the dust collector bracket is simplified. After the dust collector is used, the dust collector can be conveniently placed on the bracket main body for storage. Further, the holder main body is preferably provided with a charging device that can charge the cleaner in parallel and a winding removal device 100 that can cut hair on the roll brush of the cleaner for reuse, and an accessory storage device that can store accessories such as a cleaning head and an extension pole provided in the cleaner. The user can utilize the dust collector support to complete multiple functions simultaneously through simple operation, thereby improving the use experience of the user. The specific type of the charging device can be properly selected according to the use requirement of the dust collector, and can be an existing direct current or alternating current charger. Accomodate a support subject can include the bracing piece and set up the semicircle ring piece on the bracing piece, and the lower extreme fixed mounting of bracing piece is on removing wind device 100, and the semicircle ring piece is located the well upper portion of bracing piece, and the semicircle ring piece can the shape of adaptation dust catcher and make things convenient for accomodating of dust catcher. In other embodiments, the storage rack main body may have other structures or shapes as long as the dust collector is conveniently stored.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless otherwise expressly stated or limited, a first feature may be "on" or "under" a second feature, and the first and second features may be in direct contact, or the first and second features may be in indirect contact via an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, the description of the terms "one embodiment," "some embodiments," "an embodiment," "an example," "a specific example" or "some examples" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that modifications, alterations, substitutions and variations may be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (15)

1. A de-spooling device, the de-spooling device comprising:

a winding removing mechanism;

the mounting mechanism is provided with a track; the mounting mechanism comprises a mounting rack and a support frame arranged on the mounting rack, and the support frame is provided with the track;

the power mechanism comprises a driving piece and a transmission assembly which are both arranged on the mounting mechanism, and the driving piece and the transmission assembly are both arranged on the mounting frame; the driving piece drives the winding removing mechanism to rotate through the transmission assembly and simultaneously drives the winding removing mechanism to reciprocate along the track.

2. The de-winding device of claim 1, wherein the de-winding mechanism comprises a blade holder and a blade assembly disposed on the blade holder, and the transmission assembly drives the blade holder to reciprocate along the track and drive the blade holder to rotate.

3. The de-spooling device of claim 2, wherein the blade assembly comprises a stationary blade and a rotating blade disposed against the stationary blade, the rotating blade fixedly coupled to the blade mount, the stationary blade rotatably mounted to the blade mount.

4. The de-spooling apparatus of claim 3, wherein the drive assembly is capable of driving the blade holder from the first end to the second end of the track and rotating in a first direction; the transmission assembly can drive the blade fixing frame to move from the second end to the first end of the track and rotate along a second direction, and the first direction is opposite to the second direction.

5. The de-winding device according to claim 4, wherein the rotary blade comprises a mounting plate capable of being fixedly mounted on the blade fixing frame and a first blade arranged on the mounting plate, the first blade extends along a radial direction of the mounting plate, and opposite sides of the first blade are respectively provided with a first cutting edge and a second cutting edge;

the fixed blade comprises a lantern ring which is rotatably sleeved on the blade fixing frame, and a second blade and a third blade which are arranged on the lantern ring, wherein the second blade is provided with a third cutting edge which is arranged opposite to the first cutting edge, and the third blade is provided with a fourth cutting edge which is arranged opposite to the second cutting edge;

the blade holder is configured to be cut by the first blade edge of the first blade when rotating in the first direction, and to be cut by the second blade edge of the first blade when rotating in the second direction.

6. The de-winding device according to claim 5, wherein the de-winding device comprises at least one of the following three technical solutions:

first, the free ends of the first and second blades are relatively far apart to form a barb;

secondly, the mounting disc is provided with at least two first blades;

thirdly, the free end edge of the first blade is an arc-shaped edge.

7. The de-spooling device of claim 3, further comprising a housing, wherein a recess is formed in an upper surface of the housing, and wherein a de-spooling opening is disposed in the recess.

8. The de-winding apparatus as claimed in claim 7, wherein a guide groove parallel to the rail is further provided at one side of the de-winding opening, and the fixed blade is capable of reciprocating along the guide groove; the fixed blade is further provided with a guide post, and the guide post is connected with the guide groove in a sliding mode.

9. The de-winding apparatus of claim 7, wherein the side wall of the groove is formed with a guide slope;

and/or an elastic plugging piece is arranged at the winding removing opening and can plug at least part of the winding removing opening.

10. The de-spooling device of any of claims 1-9, wherein the drive assembly is a synchronous pulley assembly, the synchronous pulley assembly comprising:

the driven gear is arranged on the winding removing mechanism;

a tension gear disposed on the mounting mechanism;

a drive gear disposed on the drive member; and

the cover is located driven gear tensioning gear with hold-in range on the drive gear, drive gear passes through the hold-in range drives driven gear rotates and follows track reciprocating motion.

11. The de-spooling apparatus of claim 10, wherein the tensioning gear comprises a first tensioning gear disposed at a first end of the track and a second tensioning gear disposed at a second end of the track, the drive gear being spaced from the track, the first tensioning gear, the second tensioning gear, and the drive gear supporting the timing belt in a triangular configuration.

12. The de-spooling apparatus of claim 10, wherein the drive gear is disposed at a first end of the track and the tension gear is disposed at a second end of the track opposite the first end; the drive gear the tensioning gear supports the synchronous belt into a linear structure.

13. A vacuum cleaning apparatus, characterized in that it comprises a vacuum cleaner and a de-entangling apparatus according to any one of claims 1-12, said de-entangling apparatus being capable of removing entanglements from the vacuum cleaner.

14. The vacuum cleaning apparatus of claim 13,

the vacuum dust collector also comprises a controller, and the controller is respectively connected with the driving piece and the dust collector; and/or

The dust collector comprises a dust collector main machine and a cleaning head, the cleaning head comprises a cleaning head shell and a rolling brush arranged on the cleaning head shell, and the cleaning head shell or the rolling brush can be arranged on the winding removing device.

15. A vacuum cleaning apparatus according to claim 13, wherein the cleaner is a dry cleaner or a wet cleaner.

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