CN117322819B - Steam mop capable of self-adapting to terrain - Google Patents

Abstract

The invention relates to the field of floor cleaning, in particular to a steam mop capable of adapting to terrains. Most of the existing steam mops are difficult to sweep and clean corners and inconvenient to clean floating ash on the steam spray head. A steam mop capable of adapting to terrain comprises a handle and the like; the handle bottom fixedly connected with steam generator, fixedly connected with four coupling hose on the steam generator, two coupling hose is a set of. Firstly, staff starts motor and steam generator, and steam can spout to ground through two vapor nozzle and carry out steam cleaning, and motor can drive two plankers one and two plankers two clean ground jointly, and when the staff used this device to clean corner department, one of them slip mop frame can clean the ground of corner department, and is reciprocal in proper order, can clean the ground of corner department to make this device application scope wider.

Description

Steam mop capable of self-adapting to terrain

Technical Field

The invention relates to the field of floor cleaning, in particular to a steam mop capable of adapting to terrains.

Background

Mop is one of common household cleaning tools, and can be used for cleaning floor or wall surfaces and the like. In order to improve the cleaning efficiency, people design a steam mop, and the working principle of the steam mop is that water is heated to generate high-temperature and high-pressure steam, and the steam mop is used for cleaning, disinfecting and sterilizing; then cleaning dirt on the ground through the mop cloth, so that dirt which is difficult to wind can be easily dealt with, and the steam mop is time-saving and labor-saving, economical and practical.

When cleaning the ground of a family, corners which are difficult to clean exist, however, most steam mops at present are difficult to clean the corners due to the blocking of walls or furniture, dirt on the ground at the corners needs to be manually cleaned, floating ash on the steam spray head is inconvenient to clean, and the floating ash can block part of spray holes on the steam spray head, so that the cleaning efficiency of the ground is lower.

Disclosure of Invention

Aiming at the defects or shortcomings of the prior art, the invention provides the steam mop capable of adapting to the terrain, which can clean the ground at the corner, so that the application range of the device is wider, floating ash attached to two steam spray heads can be cleaned more conveniently, and the cleaning efficiency of the ground is higher.

The utility model provides a but steam mop of self-adaptation topography, includes the handle, handle bottom fixedly connected with steam generator, four connecting hose of fixedly connected with on the steam generator, two connecting hose is a set of, steam generator and four connecting hose all communicate, steam generator lower part rotation type is connected with two link, two fixedly connected with shell between the link bottom, open at the shell top has two arc grooves, four connecting hose all passes the shell, shell bottom rotation type is connected with the drain pan, two fixedly connected with motor between the link, the output shaft bottom fixedly connected with pivot of motor, the pivot passes the shell, the pivot with drain pan fixedly connected with, pivot bottom fixedly connected with casing, it has two guide slots to open on the casing, fixedly connected with two plankers are two, two steam shower nozzles of drain pan bottom fixedly connected with, two steam shower nozzles and same group's two fixedly connected with motor, the drain pan is equipped with two, the drain pan bottom fixedly connected with hose is equipped with the hose.

As the improvement of above-mentioned scheme, locking mechanical system is including the card frame, slide-type connection has two on the shell the card frame, two the card frame is the symmetry setting, two the card frame lower part all is equipped with the extrusion inclined plane, the shell with two all be connected with extension spring between the card frame, extension spring cover is in on the card frame, slide-type connection has two holding down plates on the shell, two the holding down plate is the symmetry setting, two the one end that the holding down plate kept away from each other is all rotated and is connected with the rubber wheel, two the one end that the holding down plate is close to each other is all slide-type connection has the briquetting down, two the one end that the briquetting is close to each other down is equipped with down the inclined plane, down the briquetting with be connected with down the spring down between the holding down plate, down the spring is located in the holding down plate, slide-type connection has two down frames on the shell, two down frames are the symmetry setting, all be connected with two reset springs between shell and the holding down frame down, two reset springs cover down the same one set of spring down on the holding down frame down.

As an improvement of the scheme, one ends of the two clamping frames far away from the rotating shaft are rotatably connected with rubber pulleys.

As the improvement of above-mentioned scheme, self-adaptation mechanism is including sliding mop frame, two all slide-type is connected with on the carriage two sliding mop frame, carriage two with be connected with two compression springs between the sliding mop frame, two slide mop frame top all fixedly connected with guide arm, two the guide arm is the symmetry setting, two the guide arm all passes the drain pan, two all slide-type is connected with the draw-in lever on the guide arm, two the draw-in lever top is located respectively in two arc grooves at shell top, the draw-in lever with be connected with vertical spring between the guide arm.

As the improvement of above-mentioned scheme, still including anti-blocking mechanism, anti-blocking mechanism sets up on the casing, anti-blocking mechanism has been placed including the jack-prop between two guide slots on the casing, jack-prop top fixedly connected with six arriss poles, six arriss poles pass the casing, six arriss pole top swivelling joint has the round reed, the round reed is located in the pivot, the round reed with be connected with down between the pivot and support the spring, it is located to support the spring down in the pivot, six arriss pole upper portions slidingtype is connected with and brushes the frame, brush the frame and pass the casing.

As an improvement of the scheme, the bottom of the top column is of a hemispherical structure.

As the improvement of above-mentioned scheme, still include the gyro wheel, two the kelly top all is connected with in rotation the gyro wheel, two the gyro wheel is located respectively two arc grooves at shell top.

As an improvement of the scheme, the novel clamping rod further comprises balls, and the tops of the two clamping rods are rotatably connected with the balls.

Firstly, staff starts motor and steam generator, steam can spout to ground through two vapor nozzle and carry out steam cleaning, the output shaft of motor can drive the reciprocal in same direction as reverse rotation of pivot, two plankers are first and two plankers can clean ground jointly, when the staff uses this device to clean corner department, one of them slip mop frame can be under one of them compression spring's effect towards the direction of keeping away from the pivot removal, along with slip mop frame drive guide arm, clamping lever and vertical spring all continue reciprocal in same direction as reverse swing, one of them slip mop frame can clean the ground of corner department, reciprocal in proper order, can clean the ground of corner department, thereby make this device application scope wider.

When the steam spray heads are blocked by the floating ashes, the device can be pressed by a worker to move downwards, the brushing frame can brush the floating ashes attached to the bottoms of the two steam spray heads, then the worker does not press the device any more, the six-edge rod reversely rotates to drive the brushing frame to reversely rotate, and the brushing frame is sequentially reciprocated, so that the floating ashes attached to the two steam spray heads can be cleaned more conveniently, and the cleaning efficiency on the ground is higher.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a steam generator, a connection hose and a connection frame according to the present invention.

FIG. 3 is a schematic perspective view of the clip, tension spring and lower platen of the present invention in cross-section.

Fig. 4 is a schematic perspective view of the motor, the shaft and the housing according to the present invention.

Fig. 5 is a schematic perspective view of a first carriage, a second carriage and a steam nozzle according to the present invention.

Fig. 6 is a schematic view of a partial perspective structure of the present invention.

Fig. 7 is a schematic view in perspective, partially cut-away, of a locking mechanism of the present invention.

Fig. 8 is a schematic perspective view of the clamping frame, the pressing frame and the return spring of the present invention.

Fig. 9 is a schematic diagram of a split perspective structure of the anti-blocking mechanism of the present invention.

Fig. 10 is a schematic perspective view of a cross-section of the housing of the present invention.

Fig. 11 is a schematic perspective view of the roller and ball of the present invention.

Fig. 12 is a schematic perspective view, partially in section, of the adaptive mechanism and anti-blocking mechanism of the present invention.

Figure 13 is a schematic cross-sectional perspective view of a second carriage, a sliding mop frame and a compression spring of the present invention.

Reference numerals in the figures: 1. the handle, 2, the steam generator, 21, the connecting hose, 22, the connecting frame, 3, the shell, 31, the bottom shell, 4, the motor, 5, the rotating shaft, 6, the shell, 7, the first carriage, 8, the second carriage, 9, the steam nozzle, 101, the clamping frame, 1011, the extension spring, 102, the lower pressing plate, 103, the lower pressing block, 104, the lower pressing spring, 105, the lower pressing frame, 106, the return spring, 111, the sliding mop frame, 112, the compression spring, 113, the guide rod, 114, the clamping rod, 115, the vertical spring, 121, the jacking column, 122, the hexagonal rod, 1221, the round reed, 123, the lower abutting spring, 124, the brushing frame, 13, the roller, 14 and the ball.

Detailed Description

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, and the specific connection modes of the parts adopt conventional means such as mature bolts, rivets, welding, pasting and the like in the prior art, and the detailed description is omitted.

Example 1: the utility model provides a but steam mop of self-adaptation topography, shown in fig. 1-13, including handle 1, there is steam generator 2 handle 1 bottom through bolted connection, there are four coupling hose 21 through flange joint on the steam generator 2, coupling hose 21 is used for carrying steam, two coupling hose 21 is a set of, steam generator 2 with four coupling hose 21 all communicates, steam generator 2 lower part swivelling joint has two link 22, two there is shell 3 through bolted connection between the link 22 bottom, two arc grooves are opened at shell 3 top, four coupling hose 21 all passes shell 3, shell 3 bottom swivelling joint has drain pan 31, two there is motor 4 through bolted connection between the link 22, motor 4's output shaft bottom fixedly connected with pivot 5, pivot 5 passes shell 3, pivot 5 with drain pan 31 fixedly connected with, the welding of pivot 5 bottom has casing 6, two guide slots are opened on the casing 6, two guide slots are equipped with two and have two to be equipped with respectively two and hang down the same by the two on the mop heads 8, two the two are equipped with two and two the same hose 8, two the mop heads are equipped with two and are connected with two the same hose 7, two the hose 7, two are equipped with two the same hose connection hose 7, two the same hose 7, two are equipped with the steam generator 4.

The locking mechanism comprises clamping frames 101, wherein two clamping frames 101 are connected to a shell 3 in a sliding mode, the two clamping frames 101 are symmetrically arranged, one ends, far away from a rotating shaft 5, of the two clamping frames 101 are all rotationally connected with rubber wheels, the lower parts of the two clamping frames 101 are all provided with extrusion inclined planes, an extension spring 1011 is connected between the shell 3 and the two clamping frames 101 through a hook, the extension spring 1011 is sleeved on the clamping frames 101, two lower pressing plates 102 are connected to the shell 3 in a sliding mode, the two lower pressing plates 102 are symmetrically arranged, one ends, far away from each other, of the two lower pressing plates 102 are all rotationally connected with rubber pulleys, one ends, close to each other, of the two lower pressing plates 103 are all provided with lower pressing inclined planes, the lower pressing plates 103 are connected with lower pressing springs 104 through hooks, the lower pressing springs 104 are located in the lower pressing plates 102, the shell 3 are connected with the lower pressing frames 105 in a sliding mode, the two lower pressing frames 105 are connected with the two lower pressing frames 105 in a sliding mode, and the two lower pressing frames 105 are in a resetting mode, and the two lower pressing frames 105 are connected with the same through the two pressing frames 106, and the two lower pressing frames 105 are in a resetting mode, and the two pressing frames 105 are connected with the same through the two pressing frames 106.

The self-adaptive mechanism comprises a sliding mop frame 111, two sliding mop frames 111 are connected to two second mops 8 in a sliding mode, two compression springs 112 are connected between the two second mops 8 and the sliding mop frame 111 through hooks, guide rods 113 are welded to the tops of the two sliding mop frames 111, the two guide rods 113 are symmetrically arranged, the two guide rods 113 penetrate through the bottom shell 31, clamping rods 114 are connected to the two guide rods 113 in a sliding mode, the lower portions of the clamping rods 114 are in contact with the bottoms of the pressing frames 105, the tops of the two clamping rods 114 are respectively located in two arc-shaped grooves in the tops of the outer shell 3, the two arc-shaped grooves in the tops of the outer shell 3 are used for limiting the two clamping rods 114 respectively, and vertical springs 115 are connected between the clamping rods 114 and the guide rods 113 through hooks.

Initially, the shell 3 limits two clamping rods 114, the compression spring 112 is in a compression state, the two clamping frames 101 limit the two pressing frames 105 respectively, firstly, a worker starts the motor 4 and the steam generator 2, the steam generator 2 can promote steam to enter the two steam spray heads 9 through two groups of connecting hoses 21 respectively, the steam can be sprayed to the ground through the two steam spray heads 9 for steam cleaning, an output shaft of the motor 4 can drive the rotating shaft 5 to rotate in a reciprocating and reversing manner, the rotating shaft 5 rotates in a reciprocating and reversing manner can drive the shell 6 to rotate in a reciprocating and reversing manner, the shell 6 rotates in a reciprocating and reversing manner can drive the two first and second dragging plates 7 and 8 to swing in a reciprocating and reversing manner, the two first and second dragging plates 7 and 8 can jointly clean the ground, the two dragging plates 8 swing in a reciprocating and reversing manner can respectively drive the two sliding mop frames 111 to swing in a reciprocating and reversing manner, the sliding mop frame 111 swings reciprocally and reversely to drive the bottom shell 31, the guide rod 113, the clamping rod 114 and the vertical spring 115 to swing reciprocally and reversely, the bottom shell 31 swings reciprocally and reversely to drive the two steam spray heads 9 to swing reciprocally and reversely, when a worker cleans a corner by using the device, the rubber pulley on one lower pressing plate 102 contacts with the wall on one side of the corner, the wall presses one lower pressing plate 102 to move towards the direction close to the rotating shaft 5, one lower pressing plate 102 moves to drive one lower pressing plate 103 and one lower pressing spring 104 to move towards the direction close to the rotating shaft 5, the pressing inclined surface on one lower pressing plate 103 contacts with the lower pressing frame 105, the lower pressing frame 105 presses one lower pressing plate 103 to move away from the rotating shaft 5, one pressing spring 104 is compressed, the wall on the other side of the corner contacts with the rubber pulley on the two clamping frames 101, the wall presses the two clamping frames 101 to move towards the direction close to the rotating shaft 5, the stretching springs 1011 are stretched, the two pressing frames 105 are separated from the two clamping frames 101, the two clamping frames 101 do not limit the two pressing frames 105 any more, one pressing spring 104 is rebounded to drive one pressing block 103 to move towards the direction close to the rotating shaft 5, one pressing block 103 pushes one pressing frame 105 to move downwards, a group of two return springs 106 are compressed, one pressing frame 105 moves downwards to push one clamping rod 114 to move downwards, one vertical spring 115 is compressed, one clamping rod 114 is separated from contact with the shell 3, the shell 3 is not limited to one clamping rod 114 any more, one compression spring 112 is rebounded, one of the compression springs 112 rebounds to drive one of the sliding mop frames 111 to move in a direction away from the rotating shaft 5, one of the sliding mop frames 111 moves to drive one of the guide rods 113 to move in a direction away from the rotating shaft 5, one of the guide rods 113 moves to drive one of the clamping rods 114 and one of the vertical springs 115 to move in a direction away from the rotating shaft 5, one of the clamping rods 114 is separated from contact with one of the pressing frames 105, one of the clamping rods 114 top is contacted with the top of the inner wall of the shell 3, the sliding mop frames 111 drives the guide rods 113, the clamping rods 114 and the vertical springs 115 to continuously swing back and forth along with the sliding mop frames 111, one of the sliding mop frames 111 cleans the ground at the corners, then the wall can squeeze one of the sliding mop frames 111 to move and reset in a direction close to the rotating shaft 5, one of the sliding mop frames 111 resets to drive one of the guide rods 113 to move and reset in a direction close to the rotating shaft 5, resetting one of the guide rods 113 drives one of the clamping rods 114 and one of the vertical springs 115 to move and reset in a direction approaching the rotating shaft 5, and the lower part of one of the clamping rods 114 is in contact with the bottom of one of the pressing frames 105 again, so that the lower part of the clamping rod 114 reciprocates.

Then the staff promotes this device horizontal migration, one of them holding down plate 102 can break away from the contact with the wall, wherein a set of two return springs 106 can rebound, wherein a set of two return springs 106 rebound can drive one of them pushing down frame 105 upwards jointly, then one of them 113 resets and can drive one of them clamping lever 114 and one of them vertical spring 115 and all move the reset towards the direction that is close to pivot 5 again, when one of them clamping lever 114 moves to one of them arc wall below at shell 3 top, one of them clamping lever 114 can break away from the contact with shell 3 inner wall top, one of them vertical spring 115 can reset, one of them vertical spring 115 resets and can drive one of them clamping lever 114 upwards to move the reset, one of them clamping lever 114 top can move to one of them arc wall in the top of shell 3 again, one of them clamping lever 114 lower part can with one of them pushing down frame 105 bottom again, when the staff removes this device and leaves the wall, the wall can break away from the contact with two clamping frames 101, the extension spring 1011 resets and can drive two clamping frames 101 and move the reset towards the direction that is kept away from pivot 5, when one of them clamping lever 114 moves to one of them clamping lever 101, one of them clamping lever 101 can again contact with pushing down frame 105, one of clamping lever 101 can move down frame 105 again, the reset towards the pivot 105, the range is realized through the reciprocal angle that can be moved to two to the compression spring to the side of the device, and the mop can be moved towards the pivot 111 in proper order, and the range is more to the floor, the cleaning device can be moved towards the opposite directions, and can be moved towards the opposite to the pivot, and can slide to the floor, and can roll and move towards the opposite the side and can move towards the side and move towards the side.

Example 2: on the basis of embodiment 1, as shown in fig. 9-12, the anti-blocking mechanism is further included, the anti-blocking mechanism is disposed on the housing 6, the anti-blocking mechanism includes a top column 121, a hemispherical structure is disposed between two guide grooves on the housing 6, a hexagonal rod 122 is welded at the top of the top column 121, the hexagonal rod 122 penetrates through the housing 6, a round reed 1221 is rotatably connected at the top of the hexagonal rod 122, the round reed 1221 is located in the rotating shaft 5, a lower supporting spring 123 is connected between the round reed 1221 and the rotating shaft 5 through a hook, the lower supporting spring 123 is located in the rotating shaft 5, a brushing frame 124 is slidably connected at the upper part of the hexagonal rod 122, the brushing frame 124 is used for brushing floating ash attached to the bottoms of the two steam spray heads 9, and the brushing frame 124 penetrates through the housing 6.

When the steam spray head 9 is blocked by floating dust, a worker can press the device to move downwards, so that the bottom of the top column 121 is in contact with the ground, the ground can extrude the top column 121 to move upwards along the two guide grooves on the shell 6, the top column 121 moves upwards to drive the six-edge rod 122 to move upwards, the six-edge rod 122 moves upwards to drive the round reed 1221 to move upwards, the lower supporting spring 123 can be compressed, the six-edge rod 122 rotates under the action of the two guide grooves on the shell 6 in the process of moving upwards, the six-edge rod 122 rotates to drive the six-edge rod 122 to rotate, the six-edge rod 122 rotates to drive the brushing frame 124 to rotate, then the worker does not press the device any more, the lower supporting spring 123 resets to drive the round reed 1221, the six-edge rod 122 and the top column 121 to move downwards to reset, the six-edge rod 122 rotates reversely under the action of the two guide grooves on the shell 6, the six-edge rod 122 rotates reversely to drive the brushing frame 124 to rotate sequentially, and the two brushing frames 124 can clean the two steam spray heads more conveniently and cleanly on the bottom of the steam spray head 9.

Example 3: on the basis of embodiment 2, as shown in fig. 11, the device further comprises a roller 13, wherein the top ends of the two clamping rods 114 are rotatably connected with the roller 13, and the two rollers 13 are respectively positioned in two arc grooves at the top of the shell 3.

The roller 13 can reduce the friction between the clamping rod 114 and the arc-shaped groove at the top of the shell 3, so that the clamping rod 114 moves more smoothly.

Example 4: on the basis of embodiment 3, as shown in fig. 11, the device further comprises balls 14, wherein the balls 14 have a spherical structure, and the tops of the two clamping rods 114 are rotatably connected with the balls 14.

The balls 14 can reduce friction between the clamping rod 114 and the top of the inner wall of the shell 3, so that the clamping rod 114 moves more smoothly.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a but steam mop of self-adaptation topography, its characterized in that, including handle (1), handle (1) bottom fixedly connected with steam generator (2), four connecting hose (21) of fixedly connected with on steam generator (2), two connecting hose (21) are a set of, steam generator (2) and four connecting hose (21) all communicate, steam generator (2) lower part rotation are connected with two link (22), two fixedly connected with shell (3) between link (22) bottom, open at shell (3) top has two arc grooves, four connecting hose (21) all pass shell (3), shell (3) bottom rotation are connected with drain pan (31), two fixedly connected with motor (4) between link (22), output shaft bottom fixedly connected with pivot (5) of motor (4), pivot (5) are passed shell (3), pivot (5) and two (6) are connected with two guide plates (6) fixedly connected with two, two guide plates (6) are connected with one another on two (6), the bottom of the bottom shell (31) is fixedly connected with two steam spray heads (9), the steam spray heads (9) are fixedly connected with two connecting hoses (21) of the same group, the steam spray heads (9) are communicated with the connecting hoses (21), a locking mechanism is arranged on the shell (3), and a self-adaptive mechanism is arranged on the carriage II (8);

the self-adaptive mechanism comprises a sliding mop frame (111), wherein two second mopping boards (8) are connected with the sliding mop frame (111) in a sliding manner, two compression springs (112) are connected between the second mopping boards (8) and the sliding mop frame (111), the tops of the two sliding mop frames (111) are fixedly connected with guide rods (113), the two guide rods (113) are symmetrically arranged, the two guide rods (113) penetrate through the bottom shell (31), clamping rods (114) are connected onto the two guide rods (113) in a sliding manner, the tops of the two clamping rods (114) are respectively positioned in two arc-shaped grooves at the top of the shell (3), and vertical springs (115) are connected between the clamping rods (114) and the guide rods (113);

still including anti-blocking mechanism, anti-blocking mechanism sets up on casing (6), anti-blocking mechanism is including jack-prop (121), have placed between two guide slots on casing (6) jack-prop (121), jack-prop (121) top fixedly connected with six arris pole (122), six arris pole (122) pass casing (6), six arris pole (122) top rotation is connected with round reed (1221), round reed (1221) are located in pivot (5), round reed (1221) with be connected with down support spring (123) between pivot (5), support spring (123) are located down in pivot (5), six arris pole (122) upper portion sliding connection have brush rack (124), brush rack (124) pass casing (6).

2. A steam mop capable of adapting to terrains according to claim 1, characterized in that the bottom of the top column (121) is of hemispherical structure.

3. The self-adaptive steam mop according to claim 1, wherein the locking mechanism comprises a clamping frame (101), two clamping frames (101) are connected to the shell (3) in a sliding manner, the two clamping frames (101) are symmetrically arranged, extrusion inclined planes are arranged at the lower parts of the two clamping frames (101), an extension spring (1011) is connected between the shell (3) and the two clamping frames (101), the extension spring (1011) is sleeved on the clamping frames (101), two lower pressing plates (102) are connected to the shell (3) in a sliding manner, rubber wheels are connected to the two ends of the two lower pressing plates (102) which are far away from each other in a rotating manner, lower pressing blocks (103) are connected to the two ends of the two lower pressing plates (102) which are close to each other in a sliding manner, a lower pressing inclined plane is arranged at the two ends of the two lower pressing blocks (103) which are connected to each other, a reset spring (104) is connected between the two lower pressing plates (102) and the two lower pressing plates (102), the two lower pressing plates (105) are symmetrically arranged in the shell (105), the reset springs (106) are sleeved on the pressing frames (105), and two reset springs (106) on the same pressing frame (105) are in a group.

4. A steam mop capable of adapting to terrains according to claim 3, characterized in that the ends of the two clamping frames (101) far away from the rotating shaft (5) are both rotatably connected with rubber pulleys.

5. A steam mop capable of adapting to terrains according to claim 1, further comprising a roller (13), wherein the roller (13) is rotatably connected to the top ends of two clamping rods (114), and the two rollers (13) are respectively located in two arc-shaped grooves on the top of the housing (3).

6. A steam mop capable of adapting to terrain according to claim 1, further comprising balls (14), wherein the balls (14) are rotatably connected to the tops of both said clamping bars (114).