CN213309447U - All-directional cleaning glass cleaner - Google Patents

Abstract

The utility model relates to the technical field of cleaners and discloses an all-dimensional cleaning glass cleaner, which comprises an active cleaning component, wherein the active cleaning component is provided with an active shell, the outer end surface of the active shell is connected with an operating rod, the inner end surface of the active shell is provided with an active cleaning cotton layer, the periphery of the inner end surface of the active shell is surrounded with an active colloid ring, and the active colloid ring is surrounded on the periphery of the active cleaning cotton layer; the active cleaning cotton layer is provided with an active cleaning surface which is arranged outwards and used for cleaning the glass, the active colloid ring is arranged outwards and used for scraping the active scraping edge of the glass, and the active scraping edge is arranged in parallel with the active cleaning surface; when needs clean glass, the initiative cleaning surface butt that will initiatively clean the cotton layer is on the glass face, and the limit is scraped also butt on the glass face in the initiative of initiative colloid ring, and when removing the initiative cleaning assembly, the initiative is cleaned the glass face and is washd, and the limit is scraped in the initiative also can scrape the glass face, realizes scraping the glass face when clean, plays all-round clear effect.

Description

All-directional cleaning glass cleaner

Technical Field

The patent of the utility model relates to a technical field of cleaner particularly, relates to all-round clear glass cleaner.

Background

The glass wall is a common structure in the current buildings, and the wall body formed by glass can realize the characteristics of transparency, wide visual field, attractive appearance and the like by utilizing the transparent property of the glass.

At present, the glass wall is required to be cleaned regularly due to dust and the like, dirt and the like are accumulated on the glass.

In the prior art, a glass cleaner is used for cleaning glass, an active cleaning cotton layer is arranged on the inner end face of an active shell of the glass cleaner, and the glass is cleaned by the cotton layer.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an all-round clear glass cleaner aims at solving prior art, and glass cleaner is when clean glass, has the problem that can not all-round clear.

The utility model discloses a realize like this, all-round clear glass cleaner, including the initiative cleaning assembly, the initiative cleaning assembly has the initiative shell, the outer terminal surface of initiative shell is connected with the action bars, the inner terminal surface of initiative shell is provided with the cotton layer of initiative cleaning, the periphery of the inner terminal surface of initiative shell has surrounded the initiative colloid ring, the initiative colloid ring surrounds the periphery of the cotton layer of initiative cleaning; the active cleaning cotton layer is provided with an active cleaning surface which is arranged outwards and used for cleaning glass, the active colloid ring is provided with an active scraping edge which is arranged outwards and used for scraping the glass, and the active scraping edge is arranged in parallel with the active cleaning surface.

Further, the width of the active colloid ring is gradually reduced along the direction from the outside to the inside of the active shell.

Further, the active colloid ring is in a closed ring shape.

Further, the periphery of the active cleaning cotton layer is provided with a peripheral side surface facing the active colloid ring, and a gap is formed between the peripheral side surface of the active cleaning cotton layer and the active colloid ring.

Further, the active shell comprises an active shell body, and the active cleaning cotton layer is attached to the inner end face of the active shell body; the active colloid ring is arranged on the periphery of the lower part of the active shell, the upper end of the active colloid ring is embedded into the periphery of the active shell, and the outer end of the active colloid ring extends outwards to form the active scraping edge; the periphery of the lower portion of the driving shell is sleeved with a driving ring shell, the driving ring shell is connected with the driving shell in a buckling mode, and the driving ring shell abuts against the upper end of the driving colloid ring.

Furthermore, the upper end of the active colloid ring faces towards the active shell and is convexly provided with an active embedding ring, the periphery of the active shell is provided with an active embedding groove, the active embedding groove surrounds the periphery of the active shell, and the active embedding ring is embedded in the active embedding groove.

Furthermore, an active abutting ring is convexly arranged at the upper end of the active colloid ring towards the active ring shell, the active abutting ring is arranged around the periphery of the active colloid ring, and the inner side wall of the active shell abuts against the active abutting ring.

Further, an active retaining ring is convexly arranged at the bottom of the active ring shell towards the active colloid ring, the active retaining ring is arranged around the periphery of the active colloid ring, and the active retaining ring is abutted to the adhesive tape ring.

Further, the upper end surface of the active retaining ring is in contact with the lower end surface of the active abutting ring.

Further, the active retaining ring is provided with an active annular wall abutting against the active colloid ring, and the active annular wall is obliquely arranged towards the active colloid ring along the direction from outside to inside of the active shell.

Compared with the prior art, the utility model provides an all-round clear glass cleaner, when needs clean glass, the initiative cleaning surface butt on the cotton layer of initiative cleaning of the interior terminal surface of clean subassembly in will taking the initiative is on the glass face, at this moment, the limit is also scraped on the glass face in the initiative of initiative colloid ring, when removing the clean subassembly in the initiative, the initiative is clean and is washd the glass face, and simultaneously, the limit also can be scraped to the initiative, thereby, realize when clear, scrape the glass face, play all-round clear effect.

Drawings

Fig. 1 is an exploded perspective view of an active cleaning assembly provided by the present invention;

figure 2 is an exploded perspective view of the driven cleaning assembly provided by the present invention;

FIG. 3 is a schematic front view of an omni-directional cleaning glass cleaner provided by the present invention;

fig. 4 is a cross-sectional schematic view of the operation rod and the end plug provided by the present invention;

fig. 5 is a cut-away schematic view of the active cleaning assembly provided by the present invention;

fig. 6 is an enlarged schematic view at a in fig. 5.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-6, the preferred embodiment of the present invention is shown.

The glass cleaner capable of cleaning all directions provided by the embodiment can be used for cleaning various types of glass and the glass in various installation environments.

The glass cleaner capable of cleaning in all directions comprises a driving cleaning assembly 100 and a driven cleaning assembly 200, wherein the driving cleaning assembly 100 is provided with a driving shell, the outer end face of the driving shell is connected with an operating rod 300, and a user can hold the operating rod 300 by hand when cleaning glass; an active cleaning cotton layer 116 is arranged on the inner end face of the active shell of the active cleaning assembly 100; the periphery of the inner end surface of the active shell is surrounded by an active colloid ring 115, and the active colloid ring 115 is surrounded on the periphery of the active cleaning cotton layer 100; the active cleaning cotton layer 116 has an active cleaning surface arranged outwards and cleaning the glass, and the active colloid ring 115 has an active scraping edge arranged outwards and scraping the glass, and the active scraping edge is arranged flush with the active cleaning surface.

Above-mentioned all-round clear glass cleaner who provides, when needs clean glass, the initiative cleaning surface butt of the cotton layer 116 of initiative cleaning of the interior terminal surface of subassembly 100 of will initiatively cleans on the glass face, at this moment, the limit also butt is scraped in the initiative of initiative colloid ring 115 on the glass face, when removing initiative cleaning assembly 100, the initiative cleaning surface washs the glass face, and simultaneously, the limit also can be scraped in the initiative, thereby, the realization is when clean, scrape the glass face, play all-round clear effect.

The width of the active glue ring 115 is gradually reduced along the direction from the outside to the inside of the active housing, so that the width of the active scraping edge is reduced, and the active scraping edge can scrape the glass surface conveniently.

The active glue ring 115 is closed loop shaped and the active scraping edge is also closed loop shaped and can form a closed loop shaped scraping glass surface.

The periphery of the active cleaning cotton layer 116 has a peripheral side facing the active colloid ring, with a gap 1153 between the peripheral side of the active cleaning cotton layer 116 and the active colloid ring 115. This facilitates deformation of the active colloid ring 115 and active cleaning cotton layer 116 when the active cleaning assembly 100 is pressed towards the glass.

The active shell comprises an active shell body 112, and an active cleaning cotton layer 116 is attached to the inner end face of the active shell body 112; an active colloid ring 115 is sleeved on the periphery of the lower part of the active shell 112, the active colloid ring 115 is arranged around the periphery of the active cleaning cotton layer 116, the upper end of the active colloid ring 115 is embedded in the periphery of the active shell 112, and the outer end of the active colloid ring extends outwards to form an active scraping edge; the periphery of the lower portion of the driving housing 112 is sleeved with a driving ring housing 114, the driving ring housing 114 is connected with the driving housing 112 in a snap-fit manner, and the driving ring housing 114 abuts against the upper end of the driving colloid ring 115.

An active embedded ring 1151 is convexly arranged at the upper end of the active colloid ring 115 towards the active housing 112, an active embedded groove is arranged on the periphery of the active housing 112, the active embedded groove surrounds the periphery of the active housing 112, and the active embedded ring 1151 is embedded in the active embedded groove. The active colloid ring 115 can be firmly attached to the outer circumference of the active housing 112 by the cooperation between the active embedded ring 1151 and the active embedded groove.

The upper end of the active colloid ring 115 is convexly provided with an active abutting ring 1152 towards the active ring housing 114, the active abutting ring 1152 is arranged around the periphery of the active colloid ring 115, and the inner side wall of the active ring housing 114 abuts against the active abutting ring 1152. The active abutting ring 1152 is deformed by the pressing of the active ring shell 117, so that the active colloid ring 115 is more stably arranged between the active housing 112 and the active ring shell 114.

The bottom of the active ring housing 114 is convexly provided with an active retaining ring 1141 toward the active colloid ring 115, the active retaining ring 1141 is disposed around the periphery of the active colloid ring 115, and the active retaining ring 1141 is located below the active abutting ring 1152 and abuts against the active colloid ring 115. Thus, the active colloid ring 115 is prevented from being disengaged downward by the limiting action of the active retaining ring 1141.

The upper end of active snap ring 1141 faces the lower end of active abutment ring 1152.

The active retaining ring 1141 has an active annular wall abutting against the active colloid ring 115, and the active annular wall is disposed in an inclined manner toward the active colloid ring 115 along the direction from the outside to the inside of the active housing, and the active colloid ring 115 can be more stably fixed by the inclined active annular wall abutting against the active colloid ring 115.

In this embodiment, the driving magnetic block 111 is disposed in the driving housing, and the driving magnetic block 111 is also disposed in the driving housing 112; the driven cleaning assembly 200 has a driven housing with a driven cleaning cotton layer 216 on the inner end face and a driven magnet 211 in the driven housing.

Place initiative cleaning assembly 100 and driven cleaning assembly 200 respectively on two faces of glass, utilize the mutual magnetic attraction effect of initiative magnetic path 111 and driven magnetic path 211, can guarantee that driven cleaning assembly 200 can not drop, the user is holding action bars 300, the drive initiative cleaning assembly 100 removes, under the effect of magnetic attraction, driven cleaning assembly 200 also removes thereupon, utilize initiative cleaning cotton layer 116 and driven cleaning cotton layer 216 to clean two faces of glass respectively, synchronous operation, cleaning efficiency is higher.

A moving seat 125, a rotating shaft and a driving fluted disc 103 which are arranged in an up-and-down mode are arranged in the driving shell, the driving magnetic block 111 is arranged in the moving seat 125, and along with the movement of the moving seat 125, the driving magnetic block 111 moves along with the moving seat; a threaded hole 113 which is longitudinally arranged is formed in the movable seat 125, a driving thread 102 is formed on the outer surface of the lower portion of the rotating shaft, a driven fluted disc 101 is arranged on the upper portion of the rotating shaft, and the driven fluted disc 101 is meshed with the driving fluted disc 103; the driving gear 103 is provided with a driving rod 104 for driving the driving gear 103 to rotate, and the driving rod 104 extends to the outer end surface of the driving shell.

Like this, through the rotation of operation actuating lever 104, then drive the rotation of drive fluted disc 103 to drive driven fluted disc 101 and rotate, along with the rotation of driven fluted disc 101, the axis of rotation also rotates thereupon, and the screw hole 113 of removing the seat 125 meshes with the drive screw thread 102 of axis of rotation, removes the seat 125 and then can reciprocate, drives the reciprocating of driving magnetic path 111, like this, then can adjust the relative distance between driving magnetic path 111 and the driven magnetic path 211, adjusts magnetic attraction between the two.

To facilitate rotation of the drive rod 104, the outer end of the drive rod 104 is provided with a rotation cap 120.

The moving seat 125 is formed at the inside thereof with longitudinally arranged studs, in which screw holes 113 are formed, and the driving magnet block 111 is wound around the outer circumference of the studs. Thus, the up-and-down movement of the whole movable base 125 is facilitated, and the arrangement of the driving magnetic block 111 is also facilitated.

The driving shell 112 is internally provided with a driving push plate 105 which moves up and down, a driving clamping block 107 which moves horizontally and a driving pressing block 118 which drives the driving push plate 105 to move up and down; the inner side wall of the driving ring shell 114 is provided with a driving clamping hole 117, and the outer end of the driving clamping block 107 is provided with a driving clamping head 108 which penetrates through the side wall of the driving shell 112 and is clamped with the driving clamping hole 117; the active push plate 105 is provided with an active convex strip 106 arranged downwards, the active convex strip 106 penetrates through an active clamping block 107, and an active driving structure is arranged between the active convex strip 106 and the active clamping block 107; the upper end of the active pressing block 118 extends out of the outer end surface of the active shell 112; the driving pressing block 118 moves downwards to drive the driving pushing plate 105 and the driving protrusion 106 to move downwards, and the driving structure drives the driving chuck 108 of the driving chuck 107 to disengage from the driving chuck hole 117.

The driving rubber ring 115 is firmly mounted on the periphery of the driving housing 112 by the pressing of the driving ring housing 114, and the driving ring housing 114 is firmly mounted on the driving housing 112 by the cooperation of the driving chuck 108 of the driving chuck 107 and the driving chuck hole 117 of the driving ring housing 114. When the driving block 118 is pressed downward, the driving block 118 drives the driving push plate 105 to move downward, the driving protrusion 106 also moves downward, the driving structure drives the driving chuck 108 of the driving block 107 to retract inward, and the driving chuck 108 is disengaged from the driving buckle of the driving ring shell 114, so that the driving ring shell 114 can be detached from the driving shell 112. When the driving ring shell 114 needs to be installed, the driving ring shell 114 is directly clamped downward, and at this time, the driving chuck 108 of the driving chuck 107 is automatically clamped in the driving chuck hole 117 of the driving ring shell 114.

The lower part of the driving push plate 105 is connected with a driving push plate spring 110 for driving the driving push plate 105 to return upwards, and the inner end of the driving latch 107 is connected with a driving latch spring 109 for driving a driving latch 108 of the driving latch 107 to return outwards and penetrate through a driving shell 112.

When the driving ring shell 114 is detached from the driving shell 112, the driving pusher 105 moves upward and the driving protrusion 106 moves upward under the action of the driving pusher spring 110, and meanwhile, the driving latch spring 109 drives the driving latch 107 to move outward, and the driving latch 108 passes through the sidewall of the driving shell 112.

The active block 107 has an active insertion hole for the active protrusion 106 to pass through, the active protrusion 106 is movably inserted into the active insertion hole, the active driving structure includes a first active inclined plane disposed in the active insertion hole and a second active inclined plane disposed on the active protrusion 106, the first active inclined plane and the second active inclined plane are attached to each other, and the first active inclined plane and the second active inclined plane are disposed in an outward inclined manner along a direction from bottom to top.

Thus, when the active protrusion 106 moves downward, the active block 107 retracts inward under the abutting action of the second active inclined surface and the second active inclined surface.

Two driven moving plates 202, an installation pressing block 204 and two installation bumps 201 which are oppositely arranged are arranged in the driven shell, and a driven moving plate spring 203 is arranged between the two driven moving plates 202; the outer end of the mounting lug 201 extends out of the inner end surface of the driven shell 212, and the inner end of the mounting lug 201 is connected with a lug spring 222 for driving the mounting lug 201 to reset outwards; an abutting part abutting against the inner end part of the mounting lug 201 is arranged on the outer side of the driven moving plate 202; the inner ends of the mounting press blocks 204 are movably inserted into the two driven moving plates 202 respectively, and the outer ends of the mounting press blocks 204 extend out of the outer end surface of the driven shell 212; a relative driving structure is arranged between the inner end of the mounting press block 204 and the driven moving plate 202; the mounting pressure block 204 is pressed inward, the relative driving mechanism drives the two driven moving plates 202 to move toward each other, the contact portions of the driven moving plates 202 are disengaged from the contact portions with the mounting projections 201, and the mounting projections 201 are pressed inward.

In the installation process, the inner end face of the driven cleaning assembly 200 is close to the glass surface, at the moment, the installation pressing block 204 is pressed inwards, because a driven driving structure is arranged between the inner end of the installation pressing block 204 and the two driven moving plates 202, the driven driving structure can drive the two driven moving plates 202 to move oppositely, namely to retract and move, at the moment, the abutting part of the driven moving plates 202 is separated from the abutting part of the inner end of the installation lug 201, so under the action of external force, the two installation lugs 201 retract inwards until the inner end face of the driven cleaning assembly 200 abuts against the glass surface, at the moment, because the magnetic attraction force of the driving magnetic block 111 and the driven magnetic block 211 is greater than the restoring force of the lug spring 222, the installation lug 201 cannot move outwards, and under the driving of the driving cleaning assembly 100, the two surfaces of glass are cleaned synchronously with the driving cleaning assembly 100.

When the driven cleaning assembly 200 needs to be detached from the glass surface, the driven cleaning assembly 200 is directly pulled down, at this time, because the distance between the driving magnetic block 111 and the driven magnetic block 211 is increased, the magnetic attraction force is smaller than the restoring force of the bump spring 222, the mounting bump 201 moves outwards under the action of the bump spring 222, the two driven moving plates 202 move away from each other under the action of the driven moving plate spring 203, and meanwhile, the mounting press block 204 also moves outwards.

The relative driving structure comprises a lug column formed on the inner end of the mounting lug 201 and a column hole formed in the driven moving plate 202, and the lug column is movably arranged in the column hole in a penetrating way; the lug column is provided with a column inclined plane which is obliquely arranged, the inner side wall of the column hole is provided with a hole inclined plane, and the column inclined plane is attached to the hole inclined plane; the pillar slope and the hole slope are respectively arranged obliquely outward in the direction in which the mounting boss 201 moves inward.

The driven shell comprises a driven shell 212, the driven magnetic block 211 is arranged inside the driven shell 212, and the driven cleaning cotton layer 216 is attached to the inner end face of the driving shell 112; the periphery of the lower part of the driven shell 212 is sleeved with a driven colloid ring 215, the driven colloid ring 215 is arranged around the periphery of a driven cleaning cotton layer 216, and the upper end of the driven colloid ring 215 is embedded in the periphery of the driven shell 212; the periphery of the lower part of the driven shell 212 is sleeved with a driven ring shell 214, the driven ring shell 214 is connected with the driven shell 212 in a buckling mode, and the driven ring shell 214 abuts against the upper end of a driven colloid ring 215; the lower end of the driven elastomeric ring 215 extends beyond the inner end of the driven housing 212.

When cleaning, the interior terminal surface butt of driven shell is on the glass face, utilizes the clean glass face of driven clean cotton layer 216, and because driven colloid ring 215 encircles the periphery at driven clean cotton layer 216, and extends the interior terminal surface of driven casing 212, driven colloid ring 215 then can scrape the glass face, and driven colloid ring 215 is cyclic annular and arranges, like this, guarantees that the direction all around at driven clean cotton layer 216 can all scrape the cleanness.

A driven push plate 205 moving up and down, a driven fixture block 207 moving in a driven manner and a driven press block 218 driving the driven push plate 205 to move up and down are arranged in the driven shell 212; the inner side wall of the driven ring shell 214 is provided with a driven clamping hole 217, the outer end of the driven clamping block 207 is provided with a driven clamping head 208 which penetrates through the side wall of the driven shell 212 and is clamped with the driven clamping hole 217; the driven push plate 205 is provided with a driven convex strip 206 arranged downwards, the driven convex strip 206 penetrates through the driven fixture block 207, and a driven driving structure is arranged between the driven convex strip 206 and the driven fixture block 207; the upper end of driven press block 218 extends out of the outer end face of driven housing 212; the driven pressing block 218 moves downwards, the driven pushing plate 205 and the driven protruding strip 206 are driven to move downwards, and the driven driving structure drives the driven clamping head 208 of the driven clamping block 207 to be separated from the clamping of the driven clamping hole 217.

The driven rubber ring 215 is firmly mounted on the periphery of the driven housing 212 by the pressing of the driven ring housing 214, and the driven ring housing 214 is firmly mounted on the driven housing 212 by the matching of the driven chuck 208 of the driven chuck 207 and the driven chuck hole 217 of the driven ring housing 214. When the driven pressing block 218 is pressed downwards when the driven pressing block 218 needs to be detached, the driven pressing block 218 drives the driven push plate 205 to move downwards, the driven convex strip 206 also moves downwards, the driven driving structure drives the driven clamping head 208 of the driven clamping block 207 to retract inwards, and then the driven clamping head 208 is separated from the driven clamping buckle of the driven annular shell 214, so that the driven annular shell 214 can be detached from the driven shell body 212. When the driven ring shell 214 needs to be installed, the driven ring shell 214 can be directly clamped downwards, and at the moment, the driven clamping head 208 of the driven clamping block 207 can be automatically clamped in the driven clamping hole 217 of the driven ring shell 214.

A driven push plate spring 210 for driving the driven push plate 205 to return upwards is connected below the driven push plate 205, and a driven chuck head 208 for driving the driven chuck block 207 to return outwards is connected at the inner end of the driven chuck block 207 and penetrates through a driven chuck spring 209 of the driven shell 212.

When the driven ring 214 is detached from the driven housing 212, the driven pusher 205 moves upward and the driven protrusion 206 moves upward under the action of the driven pusher spring 210, and meanwhile, the driven latch spring 209 also drives the driven latch 207 to move outward, and the driven chuck 208 passes through the sidewall of the driven housing 212.

Have the driven jack that supplies driven sand grip 206 to pass in the driven fixture block 207, driven sand grip 206 activity wears to establish in driven jack, and driven drive structure is including setting up the first driven inclined plane in driven jack and setting up the driven inclined plane of second on driven sand grip 206, and first driven inclined plane and the attached setting of the driven inclined plane of second, along the direction from bottom to top, the slope of first driven inclined plane and second is arranged outwards.

Thus, when the driven protrusion 206 moves downward, the driven latch 207 retracts inward due to the contact between the second driven slope and the second driven slope.

In this embodiment, the outer end surface of the active cleaning assembly 100 is provided with a swing head 121, and the inner end of the operating rod 300 is connected to the swing head 121, so that the operating rod 300 can swing relative to the active cleaning assembly 100, thereby facilitating the operation of the user.

In this embodiment, the operating rod 300 is a telescopic rod.

The outer end of the operating rod 300 is provided with a rod hole in which an end plug 302 is inserted, the lower portion of the end plug 302 being embedded in the rod hole, and the upper portion of the end plug 302 having an end exposed outside the rod hole.

In order to stabilize the fit between the end plug 302 and the rod hole, the operating rod 300 is inwardly recessed and protruded, and an insertion boss 303 inserted into the rod hole and a recessed ring 304 disposed at the outer periphery of the operating rod 300 are formed, the insertion boss 303 abutting on the outer periphery of the lower portion of the end plug 302.

In this embodiment, the insert protrusion 303 is annular and is circumferentially disposed around the inner sidewall of the rod hole.

The bottom of the end head is formed with a downward arranged lower end surface which is arranged around the periphery of the operating rod 300, a sleeve 301 is sleeved on the periphery of the operating rod 300, the top of the sleeve 301 is butted on the lower end surface of the end head, and the sleeve 301 covers the outer part of the concave ring 304.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The omnibearing cleaning glass cleaner is characterized by comprising an active cleaning component, wherein the active cleaning component is provided with an active shell, the outer end face of the active shell is connected with an operating rod, an active cleaning cotton layer is arranged on the inner end face of the active shell, an active colloid ring is encircled on the periphery of the inner end face of the active shell, and the active colloid ring is encircled on the periphery of the active cleaning cotton layer; the active cleaning cotton layer is provided with an active cleaning surface which is arranged outwards and used for cleaning glass, the active colloid ring is provided with an active scraping edge which is arranged outwards and used for scraping the glass, and the active scraping edge is arranged in parallel with the active cleaning surface.

2. The all-round glass cleaner of claim 1, wherein the width of the active gel ring tapers in an outward-to-inward direction of the active housing.

3. The all-round glass cleaner of claim 1, wherein the active colloid ring is in the shape of a closed loop.

4. The all-round glass cleaner of claim 1, wherein the periphery of the active cleaning cotton layer has a peripheral side facing the active colloid ring, with a gap between the peripheral side of the active cleaning cotton layer and the active colloid ring.

5. The all direction cleaning glass cleaner of any one of claims 1 to 4, wherein the active housing comprises an active shell, the active cleaning cotton layer being attached to an inner end surface of the active shell; the active colloid ring is arranged on the periphery of the lower part of the active shell, the upper end of the active colloid ring is embedded into the periphery of the active shell, and the outer end of the active colloid ring extends outwards to form the active scraping edge; the periphery of the lower portion of the driving shell is sleeved with a driving ring shell, the driving ring shell is connected with the driving shell in a buckling mode, and the driving ring shell abuts against the upper end of the driving colloid ring.

6. The all-round glass cleaner of claim 5, wherein the upper end of the active colloid ring is convexly provided with an active embedded ring toward the active housing, the periphery of the active housing is provided with an active embedded groove arranged around the periphery of the active housing, and the active embedded ring is embedded in the active embedded groove.

7. The all-round glass cleaner of claim 6, wherein the upper end of the active colloid ring is convexly provided with an active abutment ring towards the active ring housing, the active abutment ring being arranged around the periphery of the active colloid ring, the inner side wall of the active housing abutting the active abutment ring.

8. The all-round glass cleaner of claim 7, wherein a bottom of the active ring housing is convexly provided with an active retaining ring toward the active gel ring, the active retaining ring being disposed around a periphery of the active gel ring, the active retaining ring abutting the active gel ring.

9. The omni directional cleaning glass cleaner of claim 8, wherein an upper end face of the active retaining ring is adjacent to a lower end face of the active abutment ring.

10. The all-round glass cleaner of claim 8, wherein the active grommet has an active surround abutting the active colloid ring, the active surround being disposed obliquely toward the active colloid ring in an outward-to-inward direction of the active housing.

Images