High stability mop burnisher
Technical Field
The utility model relates to the field of cleaning tools, in particular to a high-stability mop cleaning tool.
Background
Cleaning is a task that must be performed in everyday life, and how to make cleaning effective and quick is the development direction of cleaning tools today. The flat mop comprises a mop rod and a flat mop head which are hinged together, and the flat mop wiper is fixed on the flat mop head in a sleeving, sticking or buckling mode; when in use, the wiping materials on the flat mop can be completely attached to the ground, so that the ground is very convenient to clean; in addition, the wiping materials can be conveniently taken down or placed in the barrel for cleaning during cleaning, so that the flat mop is favored by people, but the operation convenience of the flat mop and the cleaning of the flat mop are always difficult to produce.
At present, a mop bucket which is matched with a mop bucket for use is often adopted to clean a mop, a cleaning cavity is arranged in the mop bucket, and a mop rod and a mop head are folded into a parallel state and then are inserted into the cleaning cavity during cleaning. Because the mop pole carries out the application of force to one side of mop head, when crowded water or wasing, the angle of mop head and mop pole changes easily, though can set up positioning mechanism and keep the parallel state between mop pole and mop head, often breaks away from easily in the use, leads to the slant to insert, carries the bucket easily when carrying and turns over, and stability is relatively poor, uses to experience not good.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
The utility model aims to solve the problem of providing a high-stability mop cleaning tool to overcome the defect of poor stability of the existing mop bucket.
(II) technical scheme
In order to solve the technical problem, the present invention provides a high stability mop cleaning tool, comprising:
the mop comprises a mop head and a mop rod hinged with the mop head, and wiping materials are arranged on the mop head;
the mop bucket is internally provided with a cleaning cavity; the mop cleaning device is characterized in that a squeezing mechanism is arranged on one side above the cleaning cavity and used for dewatering the mop head, a supporting piece is arranged on the other side above the cleaning cavity, a guide piece extending towards the barrel bottom is arranged below the supporting piece, and the guide piece is used for guiding and positioning the mop head so that the mop head and the mop rod can be kept in a parallel state when the mop is inserted into the cleaning cavity. This burnisher through setting up the cooperation of guide, support piece and direction spout structure, makes mop head and mop pole keep the parallel state when wasing or crowded water, and stability is good.
Furthermore, a guide sliding groove structure matched with the supporting piece is arranged on the back of the mop head. The guide chute structure comprises a first guide chute and a second guide chute which are arranged in parallel, the first guide chute is used for positioning the mop head during water spraying cleaning, and the second guide chute is used for positioning the mop head during water squeezing. The first guide sliding grooves and the second guide sliding grooves are two in number, the interval between the two first guide sliding grooves is equal to the interval between the two second guide sliding grooves, and one of the second guide sliding grooves is located between the two first guide sliding grooves.
Further, the supporting piece is a supporting block, a supporting plate or a supporting pulley.
Furthermore, the guide piece is provided with a bulge matched with the guide sliding groove structure.
Furthermore, a ball head seat is arranged at the back of the mop head, a ball head part is arranged at one end of the mop rod, and the ball head part is hinged in the ball head seat.
Furthermore, be provided with the clear water chamber in the mop bucket, the extrusion mechanism includes the extrusion portion and is located the water spray portion of extrusion portion upside, water spray portion through pump body subassembly with clear water chamber intercommunication. Install drive assembly on the mop bucket, drive assembly include the driving gear and with driven gear that the driving gear drive is connected, the back of mop head be provided with driving gear complex rack portion, driven gear pass through the connecting rod with pump body assembly connects.
Furthermore, a sewage cavity is arranged in the mop bucket, a water guide piece is arranged on the lower side of the squeezing part, and the water guide piece is used for guiding sewage scraped by the squeezing part into the sewage cavity.
(III) advantageous effects
According to the high-stability mop cleaning tool provided by the utility model, the guide piece and the support piece are additionally arranged in the mop barrel, the guide chute structure is additionally arranged on the mop, the support piece and the guide piece are arranged in the first guide chute during water spraying and cleaning, the rack part can be meshed with the driving gear to spray water at the moment, the support piece and the guide piece are arranged in the second guide chute during water squeezing, the rack part and the driving gear are staggered at the moment, and the support piece can keep the parallel state of the mop head and the mop rod no matter in a cleaning or water squeezing state, so that the stability of a product is improved, the use experience of the product is improved, and the defect of poor stability of the existing mop barrel is overcome.
Drawings
FIG. 1 is a perspective view of a high stability mop cleaning implement of the present invention;
FIG. 2 is a schematic view of a high stability mop cleaning implement of the present invention;
FIG. 3 is a perspective view of the connection of a mop, guide and support member of a high stability mop cleaning implement of the present invention;
FIG. 4 is a perspective view of a high stability mop cleaning tool mop of the present invention;
FIG. 5 is a perspective view of a mop bucket of a high stability mop cleaning implement of the present invention;
FIG. 6 is a perspective view of the connection of the water pump assembly, drive assembly and squeezing mechanism of a high stability mop cleaning tool of the present invention;
FIG. 7 is a perspective view of a water guide of a high stability mop cleaning implement of the present invention;
the corresponding part names for the various reference numbers in the figures are: 1. a mop; 2. a mop bucket; 3. an extrusion mechanism; 4. a guide member; 5. a support member; 6. a pump body assembly; 7. a drive assembly; 8. a water guide; 101. a mop head; 102. a mop rod; 103. a first guide chute; 104. a second guide chute; 105. a ball cup seat; 106. a ball head portion; 107. a rack portion; 201. a cleaning chamber; 202. a clear water cavity; 203. a sewage chamber; 301. a pressing section; 302. a water spraying part; 701. a driving gear; 702. a driven gear; 703. a connecting rod; 801. a sewage port.
Detailed Description
The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.
Referring to fig. 1 to 7, the present invention provides a high stability mop cleaning tool comprising a mop 1 and a mop bucket 2 for use with the mop 1.
Referring to fig. 4, the mop 1 comprises a mop head 101 and a mop rod 102 hinged to the mop head 101, and the mop head 101 is provided with a wiping material. The back (the end far away from the wiping object) of the mop head 101 is provided with a ball socket 105, one end of the mop rod 102 is provided with a ball head 106, the ball head 106 is hinged in the ball socket 105, one side of the ball socket 105 is provided with a clamping groove, when the mop is folded, the mop head 101 is parallel to the mop rod 102, and the mop rod 102 is clamped in the clamping groove. This mode through setting up the draw-in groove that has locate function, can further guarantee both parallel state.
Referring to fig. 2 and 3, a cleaning chamber 201 is provided in the mop bucket 2; one side of washing chamber 201 top is provided with squeezing mechanism 3, and squeezing mechanism 3 is used for crowded water and the washing of mop head 101, and the opposite side of washing chamber 201 top sets up support piece 5, and support piece 5's downside is provided with the guide 4 that extends towards the barrel head, and guide 4 is two that the symmetry set up, and guide 4 is used for leading positive location mop head 101 to mop head 101 and mop pole 102 keep the parallel state when making mop 1 insert in washing chamber 201.
Referring to fig. 2 and 3, the back of the mop head 101 is provided with a guide runner structure which cooperates with the support 5. The guide chute structure comprises a first guide chute 103 and a second guide chute 104 which are arranged in parallel, the first guide chute 103 is used for positioning the mop head 101 during water spraying cleaning, and the second guide chute 104 is used for positioning the mop head 101 during water squeezing. The number of the first guide sliding grooves 103 and the number of the second guide sliding grooves 104 are two, the interval between the two first guide sliding grooves 103 is equal to the interval between the two second guide sliding grooves 104, the interval is equal to the interval between the two supporting members, and one of the second guide sliding grooves 104 is located between the two first guide sliding grooves 103.
Wherein, the supporting member 5 can be a supporting block, a supporting plate or a supporting pulley. In this embodiment, the supporting member 5 is a supporting pulley, so that the mop head 101 can be inserted downward conveniently, and the insertion is more labor-saving. The guide part 4 is plate-shaped, is arranged corresponding to the support part 5, is provided with a bulge matched with the guide chute structure, and can be arranged in the guide chute structure together with the support part 5. The guide part 4 can also be staggered with the support part 5, and the guide part can be arranged in a guide chute structure only by being attached to the back of the mop.
Referring to fig. 2, 5 and 6, a clean water cavity 202 is arranged in the mop bucket 2, the squeezing mechanism 3 comprises a squeezing portion 301 and a water spraying portion 302 located on the upper side of the squeezing portion 301, scraping teeth are arranged on the squeezing portion 301 and used for squeezing water for the wiping objects, a plurality of water spraying ports are arranged on the water spraying portion 302 at equal intervals along the linear direction and used for spraying water for cleaning the wiping objects, and the water spraying portion 302 is communicated with the clean water cavity 202 through a pump body assembly 6. In this way, the mop head can be cleaned and squeezed, and the cleaning efficiency is high.
Referring to fig. 6, a driving assembly 7 is mounted on the mop bucket 2, the driving assembly 7 includes a driving gear 701 and a driven gear 702 in driving connection with the driving gear 701, the driving gear 701 is in driving connection with the driven gear 702 through a plurality of gears, a rack portion 107 matched with the driving gear 701 is arranged at the back of the mop head 101, the driven gear 702 is connected with the pump body assembly 6 through a connecting rod 703, and one end of the connecting rod 703 is hinged on the driven gear 702.
Referring to fig. 5 and 7, a sewage chamber 203 is formed in the mop bucket 2, a water guide 8 is disposed at the lower side of the squeezing portion 301, the water guide 8 is used for guiding sewage scraped by the squeezing portion 301 into the sewage chamber 203, a sewage port 801 is disposed on the water guide 8, and the sewage port 801 is disposed at the upper side of the sewage chamber 203. This mode can realize the separation of decontaminating, and the cleaning performance is good, and the cleaning efficiency is high.
When the mop is cleaned, the mop 1 is folded and inserted into the cleaning cavity 201, the support 5 and the guide 4 are placed in the first guide chute 103, the rack part 107 is meshed with the driving gear 701, when the mop head 1 moves, the rack part 107 drives the driving gear 701 to rotate, the driving gear 701 drives the driven gear 702 to rotate, the driven gear 702 drives the water pump assembly 6 to pump water and spray the water from the water spraying part 301, meanwhile, the water squeezing part 302 squeezes water to a wiper, and the scraped water is guided into the sewage cavity through the water guide 8; during wringing, the support piece 5 and the guide piece 4 are arranged in the second guide sliding groove 104, at the moment, the rack portion and the driving gear are staggered, the water pump assembly 6 cannot be driven to pump water, water scraped by the wringing portion 302 is guided into the sewage cavity through the water guide piece 8, and wringing are achieved.
The high-stability mop cleaning tool provided by the embodiment can realize dirt removal and separation, and has the advantages of good cleaning effect, high cleaning efficiency and good stability; it is through increasing support piece in the mop bucket, the guide part and increasing the direction spout structure on the mop, support piece and guide part are arranged in first direction spout when water spray cleaning, but the rack portion meshing driving gear sprays water this moment, support piece and guide part are arranged in second direction spout when crowded water, and rack portion and driving gear dislocation this moment no matter wash or crowded water state support piece homoenergetic make mop head and mop pole keep the parallel state, have improved the stability of product.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.