CN219166333U - Centrifugal lifting rotary mop set with low moment of inertia - Google Patents

Abstract

The utility model provides a low-inertia centrifugal lifting rotary mop set, which comprises: a mop bucket, the inside of which is provided with a rotary water spraying device; the mop comprises a mop tray and a mop rod, wherein a centrifugal lifting mechanism is arranged in the mop tray; the centrifugal lifting mechanism comprises a clamping sleeve arranged on the mop disc and a support piece capable of sliding in the vertical direction relative to the clamping sleeve; the mop disc is rotationally connected with a swinging centrifugal piece positioned above the supporting piece; the edge of the supporting piece is provided with a blocking protrusion, and when the mop disc rotates at a low speed, the supporting piece can move upwards to enable the clamping sleeve to be at a low position and clamp the rotary water spraying device; when the mop disc rotates at a high speed, the swinging centrifugal piece opens and abuts against the upper end of the blocking protrusion, and the clamping sleeve is positioned at a high position and is separated from the rotary water spraying device.

Description

Centrifugal lifting rotary mop set with low moment of inertia

Technical Field

The utility model relates to the field of cleaning tools, in particular to a low-inertia centrifugal lifting rotary mop set.

Background

The mop is an important tool for household cleaning, the existing mop bucket is various in variety and diversified in function, the rotary mop bucket and the mop are one of daily products which are convenient for mopping the floor and appear in recent years, the mop bucket and the mop are generally divided into foot-operated, hand-press type and electric type, the cleaning mechanisms in the mop bucket are driven to rotate in a foot-operated, hand-press type or electric mode respectively, and the mop head is immersed in the mop bucket and placed on the cleaning mechanisms when the mop is used, so that the mop is wetted and cleaned through rotation.

The existing mop barrel generally has the functions of cleaning and dewatering simultaneously, and when a user cleans the mop, the user often directly stretches the mop into the mop barrel and then rotates the mop head to drive the water spraying device to spray water in a rotating way, so that the aim of cleaning is fulfilled. The existing mop barrel generally has the functions of cleaning and dewatering simultaneously, when a user cleans the mop, the user often directly stretches the mop into the mop barrel, then rotates the mop head, drives the water spraying device to spray water in a rotating mode so as to achieve the purpose of cleaning, and after the cleaning is finished, the user manually lifts the mop head upwards to a high position, and then spin-dries in a rotating mode. The mop barrel is switched to be cleaned and dehydrated by changing the high position and the low position of the mop head, and the mop head is required to be operated to stop rotating and then the mop is lifted upwards when the mop barrel is switched to be in a state, so that the operation is very complicated.

The Chinese patent application No. CN202220590911.4 discloses a rotary mop set with a centrifugal lifting mechanism, which comprises a mop barrel and a mop matched with the mop barrel for use, wherein a rotary water spraying device is arranged inside the mop barrel; the mop comprises a mop tray and a mop rod, wherein a centrifugal lifting mechanism is arranged in the mop tray; the centrifugal lifting mechanism comprises a clamping sleeve arranged on the mop disc and a support piece capable of sliding in the vertical direction relative to the clamping sleeve, and a centrifugal piece matched with the support piece is arranged in the mop disc in a sliding manner along the radial direction; when the mop plate rotates at a low speed, the centrifugal part falls into the supporting part, and the clamping sleeve is positioned at a low position and is clamped with the rotary water spraying device; when the mop plate rotates at a high speed, the centrifugal piece slides outwards and abuts against the upper end of the supporting piece, and the clamping sleeve is positioned at a high position and is separated from the rotary water spraying device; the centrifugal lifting rotary mop set with low moment of inertia overcomes the defect of complicated process of cleaning the mop by the existing mop barrel.

When the mop is cleaned, the mop disc rotates at a low speed, the centrifugal force borne by the centrifugal piece is smaller than the elastic force of the second spring, at the moment, the convex blocks correspond to the sinking grooves, and the mop disc can be pressed down to enable the supporting piece to slide towards the clamping sleeve, so that the clamping sleeve is positioned at a low position to be clamped with the rotary water spraying device for spraying water; when the mop is dried, the mop disc rotates at a high speed, the centrifugal force borne by the centrifugal piece is larger than the elastic force of the second spring, the protruding block abuts against the stop part under the limit of the mounting seat, and at the moment, the supporting piece is limited and cannot slide towards the clamping sleeve, so that the clamping sleeve is positioned at a high position and is separated from the rotary water spraying device.

The centrifugal piece is in sliding connection with the mop disc in the prior art, and the centrifugal piece and the second spring are far away from the center of the rotating shaft when the mop rotates, so that the moment of inertia is large, the use is laborious, the mop is easy to shake during rotation, and noise is generated.

In addition, the area of the cover below the supporting piece is large, the connecting part of the cover is positioned at the edge of the mop disc, and the cover is easy to release and deform.

Disclosure of Invention

First, the technical problem to be solved

The utility model aims to solve the problem of providing a low-inertia centrifugal lifting rotary mop set.

(II) technical scheme

In order to solve the technical problems, the utility model provides a low-inertia centrifugal lifting rotary mop set, which comprises: a mop bucket, the inside of which is provided with a rotary water spraying device; the mop comprises a mop tray and a mop rod, wherein a centrifugal lifting mechanism is arranged in the mop tray; the centrifugal lifting mechanism comprises a clamping sleeve arranged on the mop disc and a support piece capable of sliding in the vertical direction relative to the clamping sleeve; the mop disc is rotationally connected with a swinging centrifugal piece positioned above the supporting piece; the edge of the supporting piece is provided with a blocking protrusion, and when the mop disc rotates at a low speed, the supporting piece can move upwards to enable the clamping sleeve to be at a low position and clamp the rotary water spraying device; when the mop disc rotates at a high speed, the swinging centrifugal piece opens and abuts against the upper end of the blocking protrusion, and the clamping sleeve is positioned at a high position and is separated from the rotary water spraying device.

In one embodiment of the utility model, a reset torsion spring is arranged between the swinging centrifugal piece and the mop disc, and a balancing weight is fixed on the swinging centrifugal piece.

In one embodiment of the utility model, the support member is provided with a groove for accommodating the swinging centrifugal member, the inner side of the groove is provided with a limiting wall, the lower end of the swinging centrifugal member is provided with a limiting projection, and when the mop plate rotates at a low speed, the swinging centrifugal member abuts against the limiting wall; when the mop disc rotates at a high speed, the limiting lug abuts against the blocking protrusion, and the supporting piece is limited to enable the clamping sleeve to be located at a high position.

In one embodiment of the utility model, the support member is slidably connected to the engagement sleeve, and the support member is provided with a through slot through which the rotary water spraying device passes.

In one embodiment of the utility model, a first spring is mounted between the mop tray and the support, the first spring always tending to move the support away from the engagement sleeve.

In one embodiment of the utility model, the center of the mop disk is provided with a mounting seat, the clamping sleeve is arranged in the mounting seat, and the mop disk and the mounting seat are of an integrated structure.

In one embodiment of the utility model, the mop plate is secured with a hinged mounting bracket that is hinged to the upper end of the oscillating centrifuge.

In one embodiment of the utility model, the mop tray is secured with a mounting cap located below the support member, the mounting cap being clamped and attached to the mop tray.

In one embodiment of the utility model, the rotary water spraying device comprises a supporting shaft, and a clamping seat and a stopping seat which are sleeved at the upper end of the supporting shaft, wherein a pump assembly is arranged at the lower side of the supporting shaft and is in driving connection with the clamping seat; when the mop disc rotates at a low speed, the clamping sleeve is clamped with the clamping seat and drives the pump assembly to rotate for spraying water; when the mop disc rotates at a high speed, the clamping sleeve is separated from the clamping seat, and the pump assembly stops working.

In one embodiment of the utility model, a clear water area and a sewage area are arranged in the mop bucket, and the rotary water spraying device is arranged in the clear water area; the cleaning disc is covered on the clean water area, and the clamping seat and the stop seat are positioned on the upper side of the cleaning disc; the cleaning disc is provided with a water spraying piece and a cleaning piece, and the water spraying piece is communicated with the pump assembly.

(III) beneficial effects

The utility model provides a low-inertia centrifugal lifting rotary mop sleeve, wherein a swinging centrifugal piece positioned above a supporting piece is rotationally connected with a mop disc; the swing centrifugal piece has small moment of inertia near to the rotation axis.

Furthermore, the area of the mounting cover is greatly reduced.

Drawings

Fig. 1 is a perspective view of a low moment of inertia centrifugal lifting rotary mop kit of the present utility model.

Fig. 2 is a cross-sectional view of a low moment of inertia centrifugal lifting rotary mop kit according to the present utility model.

Fig. 3 is a partial enlarged view at a of fig. 2.

Fig. 4 is a schematic structural view of the support.

Fig. 5 is a schematic structural view of the mounting frame.

Fig. 6 is a schematic view of the structure of the mounting cover.

Fig. 7 is a schematic view of the structure of the oscillating centrifuge.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 7, the present utility model provides a low moment of inertia centrifugal lifting/lowering rotary mop kit, comprising:

a mop bucket 1, the interior of which is provided with a rotary water spraying device;

the mop 2 comprises a mop disk 21 and a mop rod 22, and a centrifugal lifting mechanism is arranged in the mop disk 21; the centrifugal lifting mechanism comprises a clamping sleeve 211 arranged on the mop tray 21 and a supporting piece 23 which can slide in the vertical direction relative to the clamping sleeve 211;

the mop plate 21 is rotatably connected with a swinging centrifugal piece 24 positioned above the supporting piece; the edge of the supporting piece is provided with a blocking protrusion,

when the mop disk 21 rotates at a low speed, the supporting piece 23 can move upwards to enable the clamping sleeve 211 to be in a low position and clamp the rotary water spraying device; when the mop disk 21 rotates at a high speed, the swinging centrifugal piece 24 opens and abuts against the upper end of the blocking protrusion 23a, and the clamping sleeve 211 is in a high position and is separated from the rotary water spraying device.

A reset torsion spring is arranged between the swinging centrifugal piece and the mop disc, and a balancing weight 26 is fixed on the swinging centrifugal piece 24.

The support piece 23 is provided with a groove 230 for accommodating the swinging centrifugal piece 24, the inner side of the groove 230 is provided with a limiting wall 230a, the lower end of the swinging centrifugal piece 24 is provided with a limiting projection 24a, and when the mop disk 21 rotates at a low speed, the swinging centrifugal piece 24 abuts against the limiting wall 230a; when the mop disk 21 rotates at a high speed, the limiting projection 24a abuts against the blocking projection, and the supporting piece 23 is limited to enable the clamping sleeve 211 to be in a high position.

The supporting piece 23 is slidably connected with the clamping sleeve 211, and the supporting piece 23 is provided with a through groove 234 through which the rotary water spraying device passes.

A first spring 25 is arranged between the mop tray 21 and the supporting piece 23, and the first spring 25 always enables the supporting piece 23 to move away from the clamping sleeve 211.

The center of the mop disk 21 is provided with a mounting seat 212, the clamping sleeve 211 is arranged in the mounting seat 212, and the mop disk and the mounting seat are of an integrated structure.

The mop pan 21 is secured with a hinge mount 217 which is hinged to the upper end of the swinging centrifuge 24.

The mop tray is secured with a mounting cap 218 located below the support 23, the mounting cap 218 being clamped and connected to the mop tray.

Identical to the prior art:

the rotary water spraying device comprises a supporting shaft 11, a clamping seat 12 and a stopping seat 13 which are sleeved at the upper end of the supporting shaft 11, a pump assembly 14 is arranged at the lower side of the supporting shaft 11, and the pump assembly 14 is in driving connection with the clamping seat 12; when the mop disk 21 rotates at a low speed, the clamping sleeve 211 is clamped with the clamping seat 12 and drives the pump assembly 14 to rotate for spraying water; when the mop disk 21 rotates at a high speed, the clamping sleeve 211 is separated from the clamping seat 12, and the pump assembly 14 stops working.

A clear water area 101 and a sewage area 102 are arranged in the mop bucket 1, and a rotary water spraying device is arranged in the clear water area 101; the cleaning disc 15 is covered on the clean water area 101, and the clamping seat 12 and the stop seat 13 are positioned on the upper side of the cleaning disc 15; the cleaning disc 15 is provided with a water spray member 16 and a cleaning member 17, the water spray member 16 being in communication with the pump assembly 14.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. A low moment of inertia centrifugal lifting rotary mop kit comprising:

a mop bucket (1) is internally provided with a rotary water spraying device;

the mop (2) comprises a mop disc (21) and a mop rod (22), wherein a centrifugal lifting mechanism is arranged in the mop disc (21); the centrifugal lifting mechanism comprises a clamping sleeve (211) arranged on the mop tray (21), and a supporting piece (23) which can slide in the vertical direction relative to the clamping sleeve (211);

the mop is characterized in that the mop disc (21) is rotatably connected with a swinging centrifugal piece (24) positioned above the supporting piece; the edge of the supporting piece is provided with a blocking protrusion,

when the mop disc (21) rotates at a low speed, the supporting piece (23) can move upwards to enable the clamping sleeve (211) to be at a low position and clamp the rotary water spraying device; when the mop disc (21) rotates at a high speed, the swinging centrifugal piece (24) opens and abuts against the upper end of the blocking protrusion (23 a), and the clamping sleeve (211) is positioned at a high position and is separated from the rotary water spraying device.

2. The low moment of inertia centrifugal lifting rotary mop kit of claim 1, wherein: a reset torsion spring is arranged between the swinging centrifugal piece and the mop disc, and a balancing weight (26) is fixed on the swinging centrifugal piece (24).

3. The low moment of inertia centrifugal lifting rotary mop kit of claim 2, wherein: the mop is characterized in that a groove (230) for accommodating the swinging centrifugal piece (24) is formed in the supporting piece (23), a limiting wall (230 a) is arranged on the inner side of the groove (230), a limiting projection (24 a) is arranged at the lower end of the swinging centrifugal piece (24), and when the mop plate (21) rotates at a low speed, the swinging centrifugal piece (24) abuts against the limiting wall (230 a); when the mop disc (21) rotates at a high speed, the limiting lug (24 a) abuts against the blocking protrusion, and the supporting piece (23) is limited to enable the clamping sleeve (211) to be in a high position.

4. A low moment of inertia centrifugal lifting rotary mop kit according to claim 3, wherein: the support piece (23) is in sliding connection with the clamping sleeve (211), and the support piece (23) is provided with a through groove (234) through which the rotary water spraying device passes.

5. The low moment of inertia centrifugal lifting rotary mop kit of claim 4, wherein: a first spring (25) is arranged between the mop disc (21) and the supporting piece (23), and the first spring (25) always enables the supporting piece (23) to move in a direction away from the clamping sleeve (211).

6. The low moment of inertia centrifugal lifting rotary mop kit of claim 5, wherein: the center of the mop disc (21) is provided with a mounting seat (212), the clamping sleeve (211) is arranged in the mounting seat (212), and the mop disc and the mounting seat are of an integrated structure.

7. The low moment of inertia centrifugal lifting rotary mop kit of claim 6, wherein: the mop plate (21) is fixed with a hinged mounting frame (217) which is hinged with the upper end of the swinging centrifugal piece (24).

8. The low moment of inertia centrifugal lifting rotary mop kit of claim 7, wherein: the mop plate is fixed with a mounting cover (218) positioned below the supporting piece (23), and the mounting cover (218) is clamped and connected with the mop plate.

9. The low moment of inertia centrifugal lifting rotary mop kit of any one of claims 1-8, wherein: the rotary water spraying device comprises a supporting shaft (11), and a clamping seat (12) and a stopping seat (13) which are sleeved at the upper end of the supporting shaft (11), wherein a pump assembly (14) is arranged at the lower side of the supporting shaft (11), and the pump assembly (14) is in driving connection with the clamping seat (12); when the mop disc (21) rotates at a low speed, the clamping sleeve (211) is clamped with the clamping seat (12) and drives the pump assembly (14) to rotate for spraying water; when the mop disk (21) rotates at a high speed, the clamping sleeve (211) is separated from the clamping seat (12), and the pump assembly (14) stops working.

10. The low moment of inertia centrifugal lifting rotary mop kit of claim 9, wherein: a clear water area (101) and a sewage area (102) are arranged in the mop bucket (1), and the rotary water spraying device is arranged in the clear water area (101); a cleaning disc (15) is covered on the clean water area (101), and the clamping seat (12) and the stopping seat (13) are positioned on the upper side of the cleaning disc (15); a water spraying piece (16) and a cleaning piece (17) are arranged on the cleaning disc (15), and the water spraying piece (16) is communicated with the pump assembly (14).

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