CN211883646U - Hand-washing-free electric mop and washing barrel - Google Patents

Abstract

The utility model discloses an exempt from electronic mop and washing bucket of hand washing, electronic mop includes the mop head, the mop head includes the carousel, main shaft and drive arrangement, the quantity of main shaft and carousel is two, first input gear and second input gear have been arranged to the main shaft, drive arrangement includes first actuating mechanism and second actuating mechanism, first actuating mechanism includes first driver and first actuating lever, the both ends shaping respectively of first actuating lever are the worm structure, first input gear is the worm wheel, second actuating mechanism includes second driver and second actuating lever, the both ends shaping respectively of second actuating lever is the worm structure, second input gear is the worm wheel. When mopping and washing the mop, the first driving mechanism drives the two main shafts to rotate, and when the mop is dried after being washed, the second driving mechanism drives the two main shafts to rotate, so that the mop can be washed by hands instead of being manually wrung. The utility model discloses rational in infrastructure, convenient to use, but wide application in cleaning appliance field.

Description

Hand-washing-free electric mop and washing barrel

Technical Field

The utility model relates to the technical field of cleaning tools, in particular to an electric mop and a cleaning barrel which are free from hand washing, and the cleaning barrel is matched with the electric mop for use.

Background

The electric mop in the market has the same structure and different structural functions, comprises a mop head, a mop rod, a mop rotating disc and a control handle, and the main body of the electric mop is internally composed of a motor, a gear, a water tank, a water pump and the like. The electric mop with the structure has the advantages that two rotating discs are driven by one large motor at the same time, or one rotating disc is driven by two small motors independently, the rotating speed of the electric mop with the structure is generally between 100 and 300 turns, and most electric mops can only rotate in one direction.

For example, a hand-held electric mop disclosed in chinese patent (publication No. CN206324742U) comprises a mop head, a motor base, a ball pair connecting part, a mop rod and a handle, wherein a water storage mechanism is disposed in the mop rod, the motor base comprises an upper cover, a base, and a motor and a transmission mechanism with dual output shafts mounted in the base, the transmission mechanism is two sets of worm and worm gear mechanisms, the output shafts of the motor are worms, and two mop discs in the mop head are mounted on the worm and worm gears through worm gear shafts, respectively.

Also, as disclosed in chinese patent (publication No. CN208784616U), the electric floor-mopping machine comprises a handle bar and a mop head, wherein the mop head comprises a driving structure and a cloth disc, and the driving structure comprises a motor, a reversing gear, a cylindrical driving gear for driving the two cloth discs, a first cylindrical gear transmission set and a second cylindrical gear transmission set.

Electric mops of the above type require manual cleaning of the mop cloth during cleaning, especially with respect to relatively dirty floors, which are dirty when the mop is being mopped for a while. If the mop is not cleaned in time and the floor is continuously mopped, the floor is difficult to clean, the floor can be mopped only by manually cleaning or replacing the mop for a plurality of times, if the floor is very dirty or pet excrement is more annoying, the dirty mop is not required to be touched by hands, the cleaning is troublesome, the cleaning cost is increased by replacing the new mop, and the cleaning efficiency and the working time are reduced by manual cleaning.

SUMMERY OF THE UTILITY MODEL

For solving above-mentioned technical problem, conveniently wash and the dehydration, replace manual washing, the utility model provides an exempt from electric mop and washing bucket of hand washing, the technical scheme who adopts as follows:

the utility model provides an exempt from electronic mop of hand washing includes the mop head, the mop head is including the carousel that is used for installing the mop, a drive arrangement for installing the main shaft of carousel and being used for driving the main shaft rotation, the quantity of main shaft and carousel is two, first input gear and second input gear have been arranged on the main shaft, drive arrangement is including the rotatory first actuating mechanism of drive main shaft and the rotatory second actuating mechanism of drive main shaft, first actuating mechanism includes first driver and first actuating lever, the both ends of first actuating lever shaping respectively for with two first input gear meshing's worm structure, first input gear is the worm wheel, second actuating mechanism includes second driver and second actuating lever, the both ends of second actuating lever shaping respectively for with two second input gear meshing's worm structure, second input gear is the worm wheel.

Further, the first input gear is installed with the main shaft through a first bearing, the first bearing is a one-way bearing, the second input gear is installed with the main shaft through a second bearing, and the second bearing is a one-way bearing.

Further, the mop head also comprises a shell, a first hole is formed at the bottom of the shell, and a partition switch is arranged in the first hole.

Furthermore, a first ejector rod is arranged below the partition switch, a first spring is sleeved on the upper portion of the first ejector rod, and a shaft shoulder which abuts against the first spring is formed in the middle of the first ejector rod.

The utility model provides a washing bucket includes the bucket body, has washing position and dehydration position in the bucket body, and the dehydration position is higher than the washing position, has arranged first supporting part and second supporting part in the bucket body, and the mop head is in the washing position when first supporting part supports the mop head, and the mop head is in the dehydration level when second supporting part supports the mop head, and the second articulated shaft has been arranged to the one end that is close to bucket body lateral wall on the second supporting part, and the second supporting part can rotate around the second articulated shaft.

Furthermore, the first supporting part is formed with a first bulge part used for positioning when the mop head is washed.

Further, the second supporting part is formed with a second bulge part used for positioning the mop head during dehydration.

The utility model provides a washing bucket includes the bucket body, washing position and dehydration position have in the bucket body, the dehydration position is higher than the washing position, the third supporting part that is used for supporting the mop head has been arranged in the bucket body, the third supporting part can reciprocate, the third spring that makes third supporting part rebound has been arranged in the bucket body, third cardboard and third baffle have been arranged to the lateral wall of bucket body, the third cardboard is located between bucket body lateral wall and the third baffle, be formed with one between third cardboard and the third baffle and slide the space, the third curb plate has been arranged to one side of third supporting part, the third curb plate removes in sliding the space.

Further, the third supporting part is formed with a third projection for positioning the mop head.

Further, a rail groove is arranged on the side wall of the barrel body, a third swing rod is arranged between the third supporting portion and the rail groove, one end of the third swing rod is hinged to the third supporting portion, the other end of the third swing rod is installed in the rail groove through a rotating portion, the rotating portion moves along the rail groove, a first position and a second position are arranged in the rail groove, when the rotating portion is located at the first position, the third supporting portion supports the mop head to be located at a washing position, and when the rotating portion is located at the second position, the third supporting portion supports the mop head to be located at a dewatering position.

Has the advantages that: the first driving mechanism and the second driving mechanism are respectively used for driving the main shafts to rotate, when mopping and washing the mop, the first driving mechanism drives the two main shafts to rotate, and when the mop is dried after being washed, the second driving mechanism drives the two main shafts to rotate to replace hand washing, so that the mop does not need to be dried manually; the first supporting part supports the mop head for washing in the washing barrel, and the second supporting part supports the mop head for dehydration; the third supporting part which can move up and down in the cleaning barrel supports the mop head, and when the mop is washed, the third supporting part moves down to a lower position, and when the mop is dewatered, the third supporting part moves up to a higher position. The utility model discloses rational in infrastructure, convenient to use, but wide application in cleaning appliance field.

Drawings

FIG. 1 is a structural view of the electric mop;

FIG. 2 is a block diagram of the mop head, showing the upper housing;

FIG. 3 is an exploded view of the mop head;

FIG. 4 is a block diagram of the main shaft, the first input gear and the second input gear;

FIG. 5 is a view showing the structure of a first embodiment of the washing tub;

FIG. 6 is an exploded view of a first embodiment of the cleaning barrel;

FIG. 7 is a cross-sectional view of a first embodiment of the cleaning bucket showing the second support portion flipped up for use in cleaning a mop head;

fig. 8 is a cross-sectional view of a first embodiment of the cleaning bucket showing the second support portion turned down for wringing out the mop;

FIG. 9 is a view showing the structure of a second embodiment of the washing tub;

FIG. 10 is an exploded view of a second embodiment of the cleaning tank;

FIG. 11 is a structural view of a third card;

FIG. 12 is a view showing the cleaning bucket of the second embodiment in a state of being used for cleaning the electric mop and then being used for dewatering.

Detailed Description

The present invention will be further described with reference to fig. 1 to 12.

The utility model relates to a hand-free electric mop, it includes mop head 101, mop head 101 including the carousel 103 that is used for installing the mop, be used for installing the main shaft 104 of carousel 103 and be used for driving the rotatory drive arrangement of main shaft 104, the quantity of main shaft 104 and carousel 103 is two, the mop pastes on carousel 103 through the magic subsides, the bottom at main shaft 104 is installed to carousel 103.

The main shaft 104 is provided with a first input gear 105 and a second input gear 106, and the driving means includes a first driving mechanism for driving the main shaft 104 to rotate and a second driving mechanism for driving the main shaft 104 to rotate. When mopping and washing the mop, the first drive mechanism drives the main shaft 104 to rotate through the first input gear 105, the main shaft 104 rotates at a low speed, and the rotating speed is 100 to 300 revolutions per minute. When the mop needs to be dewatered, the second driving mechanism drives the main shaft 104 to rotate through the second input gear 106, the main shaft 104 rotates at high speed, the rotating speed is 400-2000 revolutions per minute, and the water content of the mop can be controllably adjusted at different rotating speeds.

The first driving mechanism comprises a first driver 108 and a first driving rod 107, two ends of the first driving rod 107 are respectively formed into worm structures engaged with two first input gears 105, the first input gears 105 are worm gears, and the first driving rod 107 drives the two main shafts 104 to rotate in opposite directions. The second driving mechanism includes a second driver 109 and a second driving rod 118, both ends of the second driving rod 118 are respectively formed into worm structures engaged with the two second input gears 106, the second input gears 106 are worm gears, and the rotation directions of the two main shafts 104 driven by the second driving rod 118 are opposite. When the first driving rod 107 and the second driving rod 118 respectively drive the same main shaft 104 to rotate, the rotation directions of the main shafts 104 are the same. In the above structure, the first driver 108 is a motor, and the second driver 109 is a motor.

The first input gear 105 is mounted to the main shaft 104 via a first bearing 110, the first bearing 110 being a one-way bearing, the second input gear 106 being mounted to the main shaft 104 via a second bearing 111, the second bearing 111 being a one-way bearing. In view of the self-locking characteristic of the worm gear mechanism, in order to avoid the mutual influence between the first input gear 105 and the second input gear 106 on the main shaft 104, two one-way bearings are designed for mounting the first input gear 105 and the second input gear 106. The second input gear 106 is stationary when the first driver 108 drives the spindle 104 to rotate and the first input gear 105 is stationary when the second driver 109 drives the spindle 104 to rotate. In other embodiments, the one-way bearing can be replaced by a ratchet structure equivalently.

The output shaft of the second driver 109 is arranged with a second driving gear 117, the middle of the second driving rod 118 is arranged with a second transmission gear, and the second driving gear 117 drives the second driving rod 118 to rotate through the second transmission gear. The lower housing 115 is arranged with two first mounting structures 119, and both ends of the second driving rod 118 are mounted with the first mounting structures 119 through rolling bearings, respectively.

The mop head 101 further comprises a housing comprising an upper housing 116 and a lower housing 115, the turntable 103 is mounted on the underside of the bottom of the lower housing 115, the drive means is mounted on the lower housing 115, and the main shaft 104 passes through the bottom of the lower housing 115. The lower portion of the main shaft 104 is mounted to the lower housing 115 by a general bearing, and the upper portion of the main shaft 104 is mounted to the upper housing 116 by a general bearing.

The bottom of the housing is formed with first holes, that is, the bottom of the lower housing 115 is formed with first holes, and the number of the first holes is two. The partition switch 112 is arranged in the first hole, when the mop head 101 is used for mopping and washing, in order to avoid the second driver 109 from working due to mistaken touch, the circuit of the second driver 109 can be cut off through the partition switch 112, and when the mop is used for mopping and washing, the problem that the electric mop is not easy to control due to high-speed rotation of the turntable 103 is avoided. When the mop head 101 is dehydrated, the circuit of the second driver 109 is turned on, and the work of the mop head is controlled by the key.

A first push rod 113 is arranged below the partition switch 112, a first spring 114 is sleeved on the upper portion of the first push rod 113, a shaft shoulder which abuts against the first spring 114 is formed in the middle of the first push rod 113, the first spring 114 is a compression spring, the first push rod 113 is not in contact with the partition switch 112 in a normal state, and a circuit of the second driver 109 is in a cut-off state. When the mop needs to be dewatered, the mop head 101 is placed on the third supporting portion 207, the third protrusion 209 jacks up the first push rod 113, so that the upper end of the first push rod 113 contacts with the cut-off switch 112, and the cut-off switch 112 conducts the circuit of the second driver 109.

The electric mop further comprises a mop rod 102, a control circuit connected with the driving device is arranged in the mop rod 102, and switch keys for controlling the first driver 108 and the second driver 109 are arranged on the mop rod 102.

The utility model relates to a wash bucket, the washing bucket is used for washing mop head 101, and mop head 101 still can be in the washing bucket dehydration. The washing tub includes a tub body 201, and the tub body 201 has a washing position and a dehydrating position therein, the dehydrating position being higher than the washing position. Two washing parts 211 are arranged at the bottom of the tub body 201, the two washing parts 211 are respectively used for cleaning mops of the two rotating discs 103, and a plurality of brushes are formed in the washing parts 211.

The tub body 201 has a first supporting portion 202 and a second supporting portion 203 disposed therein, which may be considered as a first embodiment of the washing tub. The number of the first supporting parts 202 is two, the two first supporting parts 202 are oppositely arranged, and the mop head 101 is in a washing position when the first supporting parts 202 support the mop head 101. The number of the second supporting parts 203 is two, the two second supporting parts 203 are oppositely arranged, and the mop head 101 is in a dewatering state when the second supporting parts 203 support the mop head 101.

When the mop is cleaned, the mop rod 102 is held by hand, the mop head 101 is stretched into the cleaning barrel and is cleaned by the fixed position of the first supporting part 202, the mop cloth is contacted with the cleaning part 211, then the mop head 101 is lifted to the second supporting part 203, the position of the mop cloth is higher than the water surface, and the fixed position is dewatered.

The first supporting part 202 is formed with a first protruding part 204 for positioning when the mop head 101 is washed, the mop head 101 is put into the washing barrel, the first protruding part 204 correspondingly enters the first hole to realize positioning, and the first supporting part 202 supports the bottom of the lower shell 115.

A second hinge shaft 206 is disposed at one end of the second support portion 203 adjacent to the sidewall of the tub body 201, and the second support portion 203 is rotatable about the second hinge shaft 206. The side wall of the tub body 201 is formed with an upright second groove in which a second mounting plate 212 is disposed, and the second supporting portion 203 is mounted on the upper portion of the second mounting plate 212 through a second hinge shaft 206.

When the mop head 101 needs to be washed, before the mop head 101 is put into the washing barrel, the second supporting part 203 should be turned upwards to prevent the second supporting part 203 from obstructing the mop head 101 from entering the washing barrel. After the washing is completed, the mop head 101 is lifted, the second supporting portion 203 is turned downwards, and the mop head 101 is placed on the second supporting portion 203 for dewatering.

The second supporting portion 203 is formed with a second protrusion 205 for positioning when the mop head 101 is dehydrated, the second protrusion 205 is correspondingly inserted into the first hole to realize positioning, and the second supporting portion 203 supports the bottom of the lower housing 115.

When the first protrusion 204 is inserted into the first hole, the first protrusion 204 does not push up the first plunger 113, and the cut-off switch 112 cuts off the circuit of the second driver 109. When the second protrusion 205 is inserted into the first hole, the second protrusion 205 pushes up the first push rod 113, so that the first push rod 113 contacts the cut-off switch 112, and the circuit of the second driver 109 is conducted.

To achieve this function, the length of the second protruding portion 205 may be designed to be greater than the length of the first protruding portion 204. Or the top end of the first protrusion 204 is formed with a first recess, when the mop head 101 is washed, the first protrusion 204 is inserted into the first hole, and the top of the first top bar 113 enters the first recess, so that the first top bar 113 cannot be jacked up.

The utility model relates to a wash bucket, the washing bucket is used for washing mop head 101, and mop head 101 still can be in the washing bucket dehydration. The washing bucket includes bucket body 201, and two washing portions 211 have been arranged to the bottom of bucket body 201, and two washing portions 211 are used for clearing up the mop of two carousel 103 respectively, and washing portion 211 shaping has a plurality of brushes.

The tub body 201 is provided with a washing position and a dewatering position, the dewatering position is higher than the washing position, the tub body 201 is provided with two third supporting parts 207 for supporting the mop head 101, and the two third supporting parts 207 are arranged oppositely, which can be regarded as a second embodiment of the washing tub.

The third supporting part 207 can move up and down, a third spring 208 which enables the third supporting part 207 to move up is arranged in the barrel body 201, the third spring 208 is a compression spring, a third mounting column which is used for fixing the third spring 208 is arranged on the bottom wall of the barrel body 201, and the lower end of the third spring 208 is sleeved on the third mounting column. The mop head 101 is pressed downwards in the cleaning barrel by the hand-held mop rod 102, the mop head 101 moves to a cleaning position, after the cleaning is completed, the mop head 101 is lifted to a dewatering position for dewatering, and the third supporting part 207 is jacked up by the third spring 208 to support the mop head 101.

The third supporting portion 207 is formed with a third protrusion 209 for positioning the mop head 101, and the third protrusion 209 is inserted into the corresponding first hole for positioning. When the third protrusion 209 is inserted into the first hole, the third protrusion 209 pushes up the first push rod 113, and the first push rod 113 contacts the partition switch 112.

The sidewall of the tub body 201 is disposed with a third clamping plate 213 and a third partition 214, and the third clamping plate 213 is located between the sidewall of the tub body 201 and the third partition 214. A sliding space is formed between the third locking plate 213 and the third partition plate 214, a third side plate 215 is disposed at one side of the third supporting portion 207, the third side plate 215 moves in the sliding space, and the third supporting portion 207 is prevented from being removed by the restriction of the third side plate 215 by the third partition plate 214. The third partition 214 is formed with a third groove along which the third supporting portion 207 moves up and down.

A rail groove is formed in a side wall of the tub body 201, the rail groove is formed at one side of the third clamping plate 213, the third supporting portion 207 and the rail groove are provided with a third swing link 210, one end of the third swing link 210 is hinged to the third supporting portion 207, the other end of the third swing link 210 is installed in the rail groove through a rotating portion, and the rotating portion moves along the rail groove.

The track groove is provided with a first position 216 and a second position 217, when the rotating part is positioned at the first position 216, the third supporting part 207 supports the mop head 101 to be positioned at a washing position, and when the rotating part is positioned at the second position 217, the third supporting part 207 supports the mop head 101 to be positioned at a dewatering position.

The track groove is a closed groove body, the moving track of the third supporting part 207 along the track groove is a closed track with a circulation loop, the track groove comprises a first track and a second track, the lower side wall of the intersection of the lower part of the first track and the lower part of the second track is a first position 216, the top of the first track and the top of the second track are transited through a V-shaped track, and the turning part of the lower side wall of the V-shaped track is a second position 217.

When the washing tub is not in use, the third spring 208 abuts against the third supporting portion 207, so that the rotating portion of the third swing link 210 is positioned at the top of the first rail. When the mop head 101 needs to be washed, the mop rod 102 is held by hand, the mop head 101 is placed in the washing barrel, the third supporting portion 207 props against the mop head 101, the mop head 101 is pressed downwards, the third supporting portion 207 moves downwards along the first rail, and when the rotating portion of the third swing rod 210 moves to the first position 216 along with the first supporting portion, washing is carried out. After the washing is finished, the force for pressing the mop head 101 downwards is released, the third spring 208 jacks up the third supporting portion 207, the third supporting portion 207 moves along the second track, when the rotating portion of the third swing link 210 moves to the top of the second track along with the third spring, the mop head 101 is pressed downwards, the third supporting portion 207 moves along the V-shaped track, and when the rotating portion of the third swing link 210 moves to the second position 217 along with the third spring, the dewatering is carried out. After the dewatering is completed, the mop head 101 is taken out, the third spring 208 jacks up the third supporting portion 207, the third supporting portion 207 moves along the V-shaped rail, and the rotating portion of the third swing link 210 moves to the top of the first rail.

Since the moving track of the third supporting portion 207 along the third slot is a linear track, and the moving track of the rotating portion of the third oscillating bar 210 along the track slot is a closed track with a circulation loop, a hinged installation manner is designed between the third supporting portion 207 and the third oscillating bar 210.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit and scope of the present invention within the knowledge of those skilled in the art, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Exempt from electronic mop of hand washing, its characterized in that: the mop head comprises a mop head (101), the mop head (101) comprises a rotary disc (103) for mounting a mop, a main shaft (104) for mounting the rotary disc (103) and a driving device for driving the main shaft (104) to rotate, the number of the main shaft (104) and the rotary disc (103) is two, a first input gear (105) and a second input gear (106) are arranged on the main shaft (104), the driving device comprises a first driving mechanism for driving the main shaft (104) to rotate and a second driving mechanism for driving the main shaft (104) to rotate, the first driving mechanism comprises a first driver (108) and a first driving rod (107), two ends of the first driving rod (107) are respectively formed into worm structures meshed with the two first input gears (105), the first input gear (105) is a worm wheel, the second driving mechanism comprises a second driver (109) and a second driving rod (118), two ends of the second driving rod (118) are respectively formed into worm structures meshed with the two second input gears (106), the second input gear (106) is a worm gear.

2. The hands-free electric mop of claim 1, wherein: the first input gear (105) is mounted with the main shaft (104) through a first bearing (110), the first bearing (110) is a one-way bearing, the second input gear (106) is mounted with the main shaft (104) through a second bearing (111), and the second bearing (111) is a one-way bearing.

3. The hands-free electric mop of claim 1, wherein: the mop head (101) further comprises a housing, a first hole is formed in the bottom of the housing, and a partition switch (112) is arranged in the first hole.

4. The hand-free electric mop of claim 3, wherein: a first ejector rod (113) is arranged below the partition switch (112), a first spring (114) is sleeved on the upper portion of the first ejector rod (113), and a shaft shoulder which props against the first spring (114) is formed in the middle of the first ejector rod (113).

5. Wash bucket, its characterized in that: including bucket body (201), washing position and dehydration position have in bucket body (201), the dehydration position is higher than the washing position, first supporting part (202) and second supporting part (203) have been arranged in bucket body (201), mop head (101) are in the washing position when first supporting part (202) support mop head (101), mop head (101) are in the dehydration level when second supporting part (203) support mop head (101), second articulated shaft (206) have been arranged to the one end that is close to bucket body (201) lateral wall on second supporting part (203), second supporting part (203) can rotate around second articulated shaft (206).

6. The washing tub as claimed in claim 5, wherein: the first supporting part (202) is formed with a first bulge (204) for positioning when the mop head (101) is washed.

7. The washing tub as claimed in claim 6, wherein: the second supporting part (203) is formed with a second bulge (205) for positioning when the mop head (101) is dewatered.

8. Wash bucket, its characterized in that: including bucket body (201), have washing position and dehydration position in bucket body (201), the dehydration position is higher than the washing position, third supporting part (207) that are used for supporting mop head (101) have been arranged in bucket body (201), third supporting part (207) can reciprocate, third spring (208) that make third supporting part (207) rebound have been arranged in bucket body (201), third cardboard (213) and third baffle (214) have been arranged to the lateral wall of bucket body (201), third cardboard (213) are located between bucket body (201) lateral wall and third baffle (214), be formed with a sliding space between third cardboard (213) and third baffle (214), third curb plate (215) have been arranged to one side of third supporting part (207), third curb plate (215) move in sliding space.

9. The washing tub of claim 8, wherein: the third supporting part (207) is formed with a third convex part (209) for positioning the mop head (101).

10. The washing tub of claim 8, wherein: a rail groove is formed in the side wall of the barrel body (201), a third swing rod (210) is arranged between the third supporting portion (207) and the rail groove, one end of the third swing rod (210) is hinged to the third supporting portion (207), the other end of the third swing rod (210) is installed in the rail groove through a rotating portion, the rotating portion moves along the rail groove, a first position (216) and a second position (217) are arranged in the rail groove, when the rotating portion is located at the first position (216), the third supporting portion (207) supports the mop head (101) to be located at a washing position, and when the rotating portion is located at the second position (217), the third supporting portion (207) supports the mop head (101) to be located at a dewatering position.

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