Electric mop bucket
The invention discloses an application of a separate application, which is applied for 2015 at 5-24 days and applied for CN201510265818.0, and is named as an electric forward and reverse rotation washing and dewatering integrated mop bucket.
Technical Field
The invention discloses an elutriation and dewatering barrel of a rotary dewatering mop, belongs to the field of sanitary ware, and particularly relates to an electric mop barrel.
Background
The rotary type dewatering mop and the washing dewatering barrel enter thousands of households, and great convenience is brought to daily life of people. The washing dewatering mop bucket also becomes one of the important components of the rotary dewatering mop. Most of rotary dewatering mop buckets on the market have the functions of washing and dewatering, but can only rotate in one direction during washing and cannot rotate back and forth to wash like a washing machine, so that some scraps are left in the mop, and the washing efficiency of the mop is reduced; secondly, separating the elutriation barrel from the dehydration barrel; and thirdly, the pedal type or the compression type is mostly adopted. In order to improve the three points, an electric mop bucket matched with a rotary dewatering mop is designed according to an electromagnetic driving principle, and compared with the existing electric mop washing and dewatering bucket (patent numbers: 200910112519.8 and 201110169752.7), the electric mop bucket is simpler in driving structure, easier to realize and better in safety.
Disclosure of Invention
In order to realize the functions, the following technical scheme is adopted.
Electric mop bucket comprises staving (1), base (5), handle (2), washing dehydration dish (3), pivot (12), motor (6), control panel (15), drain valve (16) of connecting washing dehydration dish (3) and base (5), its characterized in that: one end of the rotating shaft (12) penetrates through the barrel body (1) to be fixedly connected with the washing and dewatering disc (3), the other end of the rotating shaft penetrates through a central shaft of the driving disc (8) and the driving disc driving wheel (7) to be vertically arranged in a limiting hole on the base (5), and the rotating shaft (12) can rotate freely; a clamping groove (10) perpendicular to the rotating shaft (12) is further formed in the position, close to the driving disc (8), of the rotating shaft (12), and a metal gasket (9) is fixed on the clamping groove (10); an induction disc (11) is fixed on the rotating shaft (12) between the washing and dewatering plate (3) and the clamping groove (10) and close to the clamping groove (10); the center of the induction disc (11) is arranged on the rotating shaft (12), and the disc surface of the induction disc (11) is vertical to the rotating shaft (12); a permanent magnet (13) is fixed on the driving disc (8); the driving disc (8) is fixedly connected with the driving disc driving wheel (7) and the disc surface of the driving disc driving wheel is parallel to the disc surface of the induction disc (11); the driving disc transmission wheel (7) is connected with the motor (6); the motor (6) is fixed on the base (5) and is connected with the control panel (15) through a lead; the outer side wall of the barrel body (1) is provided with a control panel (15), and the control panel (15) is provided with a washing button, a dewatering button and a power socket; the power socket is connected with a power adapter (17); a water level detection device (14) is arranged in the side wall of the barrel body (1); the water level detection device (14) is connected with the control panel (15), and a control circuit is arranged in the control panel (15).
The induction disc (11) is made of a material with good electric conductivity, preferably aluminum or copper; the thickness of the induction disc (11) is preferably 1-10 mm.
The diameter of the driving disc (8) fixed with the permanent magnet (13) is equal to that of the sensing disc (11), and the diameter is 2-15 cm.
Each permanent magnet (13) is preferably 2-6 pairs of disk-shaped magnets, and is uniformly and symmetrically arranged on the driving disk (8) in sequence in an N-S-N-S mode, one magnetic pole of each permanent magnet (13) is arranged on the driving disk (8) and close to the sensing disk (11), and the magnetic pole is parallel and level to the upper surface of the driving disk (8).
The induction disc (11) is close to the driving disc (8) fixed with the permanent magnet (13), preferably between 1-10 mm, and the surfaces of the two discs are parallel to each other.
The peripheral diameter of the metal gasket (9) is slightly larger than the diameter of the central circular hole of the driving disc (8) so as to prevent the driving disc (8) from moving up and down along the rotating shaft (12).
The motor (6) is a positive and negative rotation motor, and the working voltage of the motor is alternating current or direct current below 36V.
The motor driving wheel (4) of the motor (6) and the driving wheel (7) of the driving disc are arranged in a coplanar and parallel mode, and the connection mode can be meshing, belt and chain connection, and is preferably meshing.
The motor driving wheel (4) of the motor (6) and the driving wheel (7) of the driving disc can also be coaxially and fixedly connected.
The shaft of motor (6) is the hollow shaft or is the concave axle, the hollow shaft is the cylindrical cavity that sets up along the axis of motor (6) pivot, the cavity can make pivot (12) pass and with base (5) contact, and make pivot (12) can the free rotation.
The input voltage of the power adapter (17) is household alternating current, and the output voltage is alternating current or direct current below 36V.
The control panel (15) and the control circuit inside the control panel can control the motor (6) to rotate positively and negatively and rotate in a single direction.
Drawings
Fig. 1 is an overall view of a power mop bucket.
Fig. 2 is a structural view of a driving of the electric mop bucket.
Fig. 3 is a cross-sectional view of a power mop bucket drive configuration.
Fig. 4 is a cross-sectional view of another drive configuration for a power mop bucket.
Fig. 5 is a top view of a drive disk of the electric mop bucket.
Names of various parts in the drawings are as follows: 1-barrel body, 2-handle, 3-washing dewatering disc, 4-motor driving wheel, 5-base, 6-motor, 7-driving disc driving wheel, 8-driving disc, 9-metal gasket, 10-clamping groove, 11-induction disc, 12-rotating shaft, 13-permanent magnet, 14-water level detection device, 15-control panel, 16-drain valve and 17-power adapter.
Detailed Description
Electric mop bucket comprises staving 1, base 5, handle 2, washing dehydration dish 3, pivot 12, motor 6, control panel 15, the drain valve 16 of connecting washing dehydration dish 3 and base 5, its characterized in that: one end of the rotating shaft 12 penetrates through the barrel body 1 to be fixedly connected with the washing and dewatering disc 3, the other end of the rotating shaft penetrates through the central shafts of the driving disc 8 and the driving disc driving wheel 7 to be vertically installed in the limiting hole in the base 5, and the rotating shaft 12 can rotate freely; a clamping groove 10 perpendicular to the rotating shaft 12 is further formed in the position, close to the driving disc 8, of the rotating shaft 12, and a metal gasket 9 is fixed on the clamping groove 10; an induction disc 11 is fixed between the elutriation and dehydration disc 3 and the clamping groove 10 and close to the clamping groove 10 on the rotating shaft 12; the center of the sensing disc 11 is arranged on the rotating shaft 12, and the disc surface of the sensing disc 11 is vertical to the rotating shaft 12; a permanent magnet 13 is fixed on the driving disc 8; the driving disc 8 is fixedly connected with the driving disc driving wheel 7, and the disc surface of the driving disc is parallel to the disc surface of the sensing disc 11; the driving disc transmission wheel 7 is connected with the motor 6; the motor 6 is fixed on the base 5 and is connected with the control panel 15 through a lead; the outer side wall of the barrel body 1 is provided with a control panel 15, and the control panel 15 is provided with a washing button, a dewatering button and a power socket; the power socket is connected with a power adapter 17; a water level detection device 14 is arranged in the side wall of the barrel body 1; the water level detection device 14 is connected with the control panel 15, and a control circuit is arranged in the control panel 15.
The induction disc 11 is made of a material with good conductivity, preferably aluminum or copper; the thickness of the sensing disc 11 is preferably 1-10 mm.
The diameter of the driving disc 8 fixed with the permanent magnet 13 is equal to that of the sensing disc 11, and the diameter is 2-15 cm.
Each permanent magnet 13 is preferably 2-6 pairs of disk-shaped magnets, and is uniformly and symmetrically arranged on the driving disk 8 in sequence in an N-S-N-S manner, one magnetic pole of each permanent magnet 13 is arranged on the driving disk 8 and close to the induction disk 11, and the magnetic pole is flush with the upper surface of the driving disk 8.
The induction disc 11 is close to the driving disc 8 fixed with the permanent magnet 13, preferably between 1 mm and 10mm, and the surfaces of the two discs are parallel to each other.
The peripheral diameter of the metal gasket 9 is slightly larger than the diameter of the central circular hole of the driving disk 8 so as to prevent the driving disk 8 from moving up and down along the rotating shaft 12.
The motor 6 is a positive and negative rotation motor, and the working voltage of the motor is alternating current or direct current below 36V. The input voltage of the power adapter 17 is household alternating current, and the output voltage is alternating current or direct current below 36V. Thus, the safety of use is ensured, and electric shock danger is prevented.
The motor driving wheel 4 of the motor 6 and the driving wheel 7 of the driving disc are arranged in a coplanar and parallel mode, and the connection mode can be meshing, belt and chain connection, and is preferably meshing.
The motor driving wheel 4 of the motor 6 and the driving wheel 7 of the driving disk can also be coaxially and fixedly connected.
The shaft of the motor 6 is a hollow shaft or a concave shaft, the hollow shaft is a cylindrical cavity arranged along the axis of the rotating shaft of the motor 6, the cavity can enable the rotating shaft 12 to penetrate through and contact with the base 5, and the rotating shaft 12 can freely rotate. The concave shape is also intended to provide the shaft 12 with stability in the horizontal direction.
The control panel 15 and the internal control circuit can control the motor 6 to rotate positively and negatively and rotate in a single direction. When water is in the barrel body 1 and the water level reaches a certain height, the motor 6 starts to rotate forwards and backwards by pressing the elutriation button; if the water level does not reach the predetermined height, the motor 6 does not operate even if the panning button is pressed. After the completion of elutriating, open the drain valve, press the dehydration button after clapping water, begin the dehydration, because the mop card is on the dehydration dish of elutriating when the dehydration, the dehydration dish of driving elutriating drives the mop and rotates together when motor 6 unidirectional rotation, realizes the dehydration function under the centrifugal force effect, and the work is accomplished and is closed the power.