Disclosure of Invention
The invention provides a rotary mop bucket, and aims to solve the problems in the prior art.
The invention is realized by the following steps:
a rotary mop bucket comprises a bucket body, wherein a small bucket detachably connected with the bucket body is arranged in the bucket body, clamping grooves are formed in two sides of the bucket body, connecting arms are arranged on two sides of the small bucket, and the end parts of the connecting arms are hinged with the small bucket; the end portion of the connecting arm is clamped in the clamping groove, and the small barrel can rotate around the connecting arm.
Furthermore, a water storage cavity is formed inside the barrel body, a water outlet hole is formed in the side portion of the barrel body and communicated with the water storage cavity, and a cock is connected to the water outlet hole.
Further, the top of staving one side is provided with the support frame, the keg with the support frame interval sets up, the support frame internal rotation is connected with the spin dryer tube, the spin dryer tube is hollow out construction, the bottom intercommunication of spin dryer tube the water storage chamber.
Furthermore, a pedal is arranged on the side of the barrel body and connected with the spin dryer tube, and the spin dryer tube can be driven to rotate by stepping on the pedal.
The pressure block is rotationally connected with the support rod, two connecting rods are symmetrically connected to the side part of the pressure block, the connecting rods are L-shaped, the tops of the connecting rods are connected with pressure levers which are L-shaped, each pressure lever comprises a bottom rod and a top rod which are connected, the middle part of each pressure lever is hinged with the corresponding connecting rod to form a hinged part, and the pressure levers can rotate along a horizontal axis;
the inner wall of the small barrel is oppositely provided with two baffle plates, the baffle plates are arranged along the horizontal direction, and two gaps are formed between the two baffle plates; the hinged part and the pressure lever are arranged at the notch; the pressing block is pressed downwards and rotated, and the hinge part can be moved to the position right below the baffle.
Further, the outside cover of vaulting pole is equipped with the spring, the bottom of spring with the base butt, the top of spring with the bottom butt of briquetting.
Further, the barrel body is made of plastic, the spin dryer tube is made of metal, and the pedal plate is made of aluminum alloy.
Further, a lifting handle is arranged at the top of the barrel body, and the lifting handle is hinged with the barrel body.
The rotary mop bucket provided by the invention is ingenious in structural design, is provided with the small buckets which are detachably connected, and can play a role of temporarily storing water, so that water cannot drip indoors when a user mops the floor, the working efficiency is improved, and the working time is shortened.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic front view of a rotary mop bucket provided by an embodiment of the present invention;
FIG. 2 is a schematic top view of a rotary mop bucket provided by an embodiment of the present invention, without the keg;
figure 3 is a schematic top view of a keg in a rotary mop bucket provided by an embodiment of the present invention;
figure 4 is a schematic front view of a keg in a rotary mop bucket provided by an embodiment of the present invention;
FIG. 5 is a schematic cross-sectional view of a keg in a rotary mop bucket provided in accordance with an embodiment of the present invention when the keg is not being placed into a mop;
FIG. 6 is a schematic cross-sectional view of a keg in a rotary mop bucket with a mop placed in the keg as provided by an embodiment of the present invention;
FIG. 7 is a schematic cross-sectional view of a brace bar coupled to a press block in a rotary mop bucket according to an embodiment of the present invention.
Summary of reference numerals: the device comprises a barrel body 11, a support frame 12, a spin dryer tube 13, a small bucket 14, a rotary table 15, a bottom plate 16, a base 17, a support rod 18, a pressing block 19, a spring 20, a connecting rod 21, a pressing rod 22, a hinge portion 23, a baffle plate 24, a notch 25, a bottom rod 26, a top rod 27, a connecting hole 28, a connecting bolt 29, a connecting arm 30, a blocking portion 31, a clamping groove 32, a water outlet 33, a faucet 34, a pedal plate 35, a roller 36, a handle 37, a sinking groove 38 and a mop 41.
For example, please refer to FIGS. 1-7.
The embodiment provides a rotatory mop bucket, and this kind of mop bucket structural design is ingenious, has the keg that can dismantle the connection, and the effect that the keg can play temporary water storage makes the user can not be indoor drip everywhere when mopping the ground operation, helps promoting the operating efficiency, reduces the activity duration.
As shown in fig. 1 and 2, the rotary mop bucket comprises a bucket body 11, a water storage cavity is formed in the bucket body 11, a support frame 12 is arranged above one side of the bucket body 11, a spin dryer tube 13 is rotatably connected in the support frame 12, and the bottom of the spin dryer tube 13 is communicated with the water storage cavity; the barrel body 11 is also internally provided with a small barrel 14 detachably connected with the barrel body, the small barrel 14 is arranged at a distance from the support frame 12, and the small barrel 14 is of an open-top structure. A rotating disc 15 is arranged in the barrel body 11, the rotating disc 15 is located in the water storage cavity, and the rotating disc 15 is located right below the small bucket 14.
As shown in fig. 3 to 5, the keg 14 has a cylindrical shape, the bottom of the keg 14 is a bottom plate 16, and both sides of the keg 14 are connected to the inside of the tub 11. A base 17 is arranged in the middle of the bottom plate 16, a support rod 18 is vertically arranged on the base 17, and a pressing block 19 is arranged at the top of the support rod 18; the pressing block 19 is rotatably connected with the support rod 18, and the pressing block 19 can vertically move along the support rod 18; a spring 20 is sleeved outside the support rod 18, the bottom end of the spring 20 is abutted with the base 17, and the top end of the spring 20 is abutted with the bottom of the pressing block 19;
the lateral part of the pressing block 19 is symmetrically connected with two connecting rods 21, the connecting rods 21 are L-shaped, the top of each connecting rod 21 is connected with a pressing rod 22, each pressing rod 22 is L-shaped, the middle part of each pressing rod 22 is hinged with the corresponding connecting rod 21 to form a hinged part 23, and each pressing rod 22 can rotate along a horizontal axis;
two baffle plates 24 are oppositely arranged on the inner wall of the small bucket 14, the baffle plates 24 are arranged along the horizontal direction, and two gaps 25 are formed between the two baffle plates 24; the hinge part 23 and the pressure lever 22 are arranged at the notch 25; the hinge portion 23 can be moved to a position just below the shutter 24 by pressing the pressing piece 19 downward and rotating the pressing piece 19.
As shown in fig. 5, the pressing rod 22 includes a bottom rod 26 and a top rod 27 connected to each other, the top rod 27 can rotate to a vertical state when the pressing rod 22 is located at the notch 25, and the top rod 27 abuts against the lower side of the baffle 24 when the hinge portion 23 moves to a position right below the baffle 24.
As shown in fig. 7, a connecting hole 28 is formed in the middle of the pressing block 19, the connecting hole 28 is stepped, a connecting bolt 29 is arranged in the connecting hole 28, and the connecting bolt 29 penetrates through the connecting hole 28 and is in threaded connection with the top of the stay bar 18; the diameter of the stay 18 is smaller than the smaller inner diameter of the connection hole 28, and the top of the stay 18 extends inside the connection hole 28.
As shown in fig. 4, connecting arms 30 are arranged on two sides of the keg 14, the end parts of the connecting arms 30 are hinged with the keg 14, and the connecting arms 30 are in a vertical state; a blocking part 31 abutting against the connecting arm 30 is formed at the side part of the small barrel 14, so that the top dead center of the connecting arm 30 is a horizontal position;
clamping grooves 32 are formed in two sides of the barrel body 11, the end portion of the connecting arm 30 is clamped in the clamping grooves 32, and the connecting arm 30 can rotate around the axis of the connecting arm. The baffle 24 is circular and the connecting arm 30 is cylindrical.
The tub body 11 is a main structural member of the mop tub, and the tub body 11 may be made of plastic, and some components contained therein may be made of metal, such as a spin dryer tub 13. The barrel body 11 is hollow, a water storage cavity is formed inside, and the mop 41 can be cleaned after water is filled into the water storage cavity.
A support frame 12 is arranged on one side of the barrel body 11, and a spin dryer tube 13 is rotatably arranged at the support frame 12, so that the head of the mop 41 can be placed in the spin dryer tube 13 for spin drying. The spin dryer tube 13 is rotatably connected with the support frame 12 and can rotate around a vertical axis; the mop 41 adopts the rotating mop 41, and after the head of the mop 41 is plugged into the spin dryer tube 13, the rod part of the mop 41 is pressed downwards, so that the head of the mop 41 and the spin dryer tube 13 can be driven to rotate, and accumulated water on the head of the mop 41 can be dried. The spin dryer tube 13 is a hollow structure and has a plurality of water holes, and water thrown out by the mop 41 can flow downwards into the water storage cavity.
The barrel body 11 is provided with a small bucket 14 detachably connected with the barrel body, and under normal conditions, the small bucket 14 can be placed in the barrel body 11, and when the ground needs to be dragged, the small bucket 14 is taken out of the barrel body 11.
After the mop 41 absorbs water at a certain position in a household, the keg 14 can be taken away, the head of the mop 41 is plugged into the keg 14, the water drained by the mop 41 is drained into the keg 14, and the mop 41 and the keg 14 are moved to the mop bucket, so that the mop 41 can be ensured not to drip on the indoor bottom plate 16 during moving, and the cleaned bottom plate 16 is ensured to be dry and clean. The accumulated water in the keg 14 can be poured into a water storage cavity or directly into a household drain system.
With such a design, when a user performs a floor mopping operation indoors, the user can ensure indoor cleanliness without dripping water accumulated on the mop 41 on the bottom plate 16.
The rotating disc 15 is arranged in the barrel body 11, when the mop 41 is cleaned, the head of the mop 41 is pressed on the rotating disc 15, so that the head of the mop 41 rotates in the water storage cavity, and the mop 41 can be cleaned better.
A limiting device consisting of a base 17, a support rod 18, a pressing block 19, a connecting rod 21, a pressing rod 22 and the like is arranged in the small bucket 14, so that the small bucket 14 can be easily clamped with the head of the mop 41 after the head of the mop 41 is plugged into the small bucket 14, the small bucket 14 can be conveniently and stably connected with the head of the mop 41, and the small bucket 14 cannot fall off from the mop 41 in the process of moving the mop 41; when the mop 41 is moved to the mop bucket, the keg 14 can be conveniently separated from the mop 41, providing convenience to the user.
The keg 14 is cylindrical with a bottom plate 16 at the bottom and an open top to allow the head of the mop 41 to be easily attached to the keg 14 and water displaced by the mop 41 to be stored in the keg 14.
The base 17 provided in the middle of the bottom plate 16 is used to connect the stay 18 and the press block 19, so that the position is relatively firm and can bear a large impact force. The stay bar 18 is used to support and connect the pressing piece 19 so that the pressing piece 19 can be disposed at a high position and can move in the vertical direction. The pressing block 19 and the stay bar 18 are movably connected, so that the pressing block 19 can rotate relative to the stay bar 18, and the pressing block 19 can move back and forth on the stay bar 18 to change the position of the pressing block. A spring 20 is sleeved outside the support rod 18, the spring 20 exerts elastic acting force on the pressing block 19, the pressing block 19 moves downwards when the pressing block 19 is pressed downwards, and the spring 20 compresses; after the pressing piece 19 is released, the spring 20 is expanded, and the pressing piece 19 moves upwards.
The two connecting rods 21 symmetrically arranged at the side part of the pressing block 19 are used for connecting the pressing rod 22, so that the pressing rod 22 is positioned at the edge position inside the small bucket 14, the pressing rod 22 can be matched with the head part of the mop 41, and the connecting rods 21 are L-shaped, so that the pressing rod 22 can be extended to a far position, and the pressing rod 22 can be positioned at a high position.
The middle part of the pressure lever 22 is hinged with the connecting rod 21, so that the pressure lever 22 can rotate around a horizontal axis, and the pressure lever 22 is in different positions.
Two baffles 24 are arranged on the inner wall of the small barrel 14, and the baffles 24 are arranged along the horizontal direction, so that when the pressing rod 22 moves to the position below the baffles 24, the baffles 24 can support the pressing rod 22 from the upper part to limit, and the pressing rod 22 can not rotate upwards any more. A gap 25 is formed between the two baffles 24, and under normal conditions, the pressing rod 22 is located at the gap 25, where the pressing rod 22 is not limited by the baffles 24, so that the pressing rod 22 can be normally turned over.
When the small bucket 14 is used, the head of the mop 41 is inserted into the small bucket 14, the head of the mop 41 presses the L-shaped bottom rod 26, the press rod 22 is turned over, the bottom rod 26 is rotated to be below the head of the mop 41, the top rod 27 is turned to be right above the head of the mop 41, the press block 19 is pressed downwards, the spring 20 is compressed, the mop 41 is then rotated, the press block 19 is rotated, the two press rods 22 are rotated to be below the two baffles 24, at the moment, after the mop 41 is loosened, the mop 41 is taken up and the mop 41 is moved, the gravity of the small bucket 14 is utilized, the small bucket 14 slightly downwards bears against the action of the two baffles 24, the top rod 27 cannot be turned upwards, the two top rods 27 are pressed above the head of the mop 41, the head of the mop 41 cannot be separated from the small bucket 14, the head of the mop 41 is limited in the mop 14, and the mop 14 can be conveniently moved.
Also, during the process of pressing down the mop 41 in the keg 14, the head of the mop 41 can be squeezed, so that a part of the accumulated water in the mop 41 is squeezed out and left in the keg 14. In this case, the mop 41 can be simply drained by such an operation, so that the accumulated water can be temporarily drained into the keg 14 during the water sucking operation of the mop 41, thereby facilitating the indoor accumulated water to be sucked away at one time.
After the mop 41 is moved to the position of the mop bucket, the mop 41 is pressed down and rotated, the press rod 22 is rotated to the two notches 25, and at the moment, in the process of lifting the mop 41 upwards, the press rod 22 can be driven to turn over, so that the head of the mop 41 is separated from the small bucket 14, and then the floor mopping operation can be normally carried out.
Therefore, the small barrel 14 with the structure can provide great convenience for normal indoor mopping operation of a family, save physical strength of a user and reduce operation time of the user.
A connecting hole 28 is formed in the middle of the pressing block 19, the connecting hole 28 is of a step structure, the screw head of the connecting bolt 29 is located in a larger position in the connecting hole 28, and the screw rod of the connecting bolt 29 penetrates through the connecting hole 28 and is in threaded connection with the end part of the stay bar 18; in the process of pressing the pressing block 19 downwards, the stay bar 18 can penetrate into the part with larger diameter of the connecting hole 28, so that the pressing block 19 can have a larger stroke range.
The connecting arm 30 is provided at the side of the keg 14 so that the keg 14 can be conveniently connected inside the barrel body 11. When the mop 41 and the small bucket 14 are moved to the mop bucket position, the two connecting arms 30 of the small bucket 14 are opened, the connecting arms 30 of the small bucket 14 are clamped in the two clamping grooves 32, and the connecting arms 30 are positioned in the horizontal position under the blocking action of the blocking parts 31, so that the small bucket 14 is suspended in the bucket body 11. At this time, the small bucket 14 is turned over, so that the connecting arm 30 rotates in the clamping groove 32, and accumulated water in the small bucket 14 can be drained into the mop bucket.
A sinking groove 38 is formed at the edge position of the top of the barrel body 11, a lifting handle 37 is connected at the sinking groove 38, the lifting handle 37 is U-shaped, two ends of the lifting handle 37 are hinged on the barrel body 11, and the mop barrel can be conveniently lifted away through the lifting handle 37; at the bottom of the tub 11 is provided a roller 36, by which the mop bucket can be conveniently moved. The pedal 35 is arranged on the side of the barrel body 11, the pedal 35 is connected with the spin dryer tube 13 through a gear mechanism, and the spin dryer tube 13 can be driven to rotate by stepping on the pedal 35, so that the mop 41 can be quickly dried, and the physical strength of a user is saved. The foot plate 35 is made of aluminum alloy, and the spin dryer tube 13 is made of metal.
An outlet hole 33 is formed in the side part of the mop bucket body 11 close to the bottom of the mop bucket body, a cock 34 is connected to the outlet hole 33, and the cock 34 is opened to enable accumulated water in the mop bucket body to be quickly discharged.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.