CN220494976U - Cleaning machine - Google Patents

Abstract

The utility model relates to a cleaning machine which comprises a box body, a spray arm and a water pumping mechanism, wherein a sunken heating part is arranged at the bottom of the box body, a water storage tank lower than the bottom wall in the box body is formed at the heating part, the water pumping mechanism is arranged in the box body, the bottom of a pump shell is provided with a water suction port corresponding to the water storage tank, and the top of the pump shell is provided with a water outlet communicated with the spray arm. When the problem that residual water exists due to uneven bottom of the box body is solved, contrary to the conventional thought of flattening the bottom of the box body, the submerged heating element is arranged to form the water storage tank, a small amount of water can be fed into the water storage tank and heated before washing, steam pre-washing is carried out on tableware, a large amount of water is fed into the water storage tank and heated by the heating element during washing, residual water can be changed into steam to sterilize and dry the tableware after washing is finished, and meanwhile, no residual water is realized.

Description

Cleaning machine

Technical Field

The utility model relates to the technical field of dish washing machines, in particular to a washing machine for washing tableware, fruits and vegetables.

Background

For a dishwasher with a large volume, at least two groups of spray arms arranged up and down are generally arranged for achieving a better washing effect. When the dishwasher works, the washing pump respectively conveys the water to each spray arm for up-and-down spraying, the water falling back after washing tableware is gathered in the water cup at the bottom of the dishwasher, and the washing pump conveys the water falling back to each spray arm again to complete one water flow cycle.

The prior application CN201211216094.7 discloses a structure, wherein a guide vane capable of splitting water is arranged in a pump shell of a water pump, one path of split water is output through a first water outlet at the top of the pump shell, the other path of split water is output through a second water outlet at the side part of the pump shell, the guide vane does not move, the interference problem of two paths of water is eliminated under the split action of the guide vane, the energy loss of water flow is reduced, and the two paths of water can keep higher lift and larger water flow; and the whole water flow system can be operated by only one centrifugal impeller, so that the whole water flow system has a simple structure and reduces the production cost. However, because the pump shell is fixed at the bottom of the box body through screws, the height difference exists at each connecting structure, so that after the cleaning is finished, certain residual water at the bottom of the box body cannot be discharged, bacteria are easy to breed after long-time storage, and secondary pollution is caused.

Therefore, further improvements are needed for the above-described washer structure.

Disclosure of Invention

Aiming at the current state of the art, the utility model provides the cleaning machine which is convenient for realizing no residual water and providing heating space for steam so as to improve the cleaning effect.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a cleaning machine, includes box, spray arm and pump water mechanism, the bottom of the case portion is provided with the backwater region of indent, the spray arm is located on the backwater region, pump water mechanism is arranged in with water from backwater region pump to spray arm, and the heating part of sinking is installed to the bottom of the case portion, and this heating part department is formed with the catch basin that is less than the bottom wall in the box, pump water mechanism is located in the backwater region and the pump case bottom is opened there is the water sucking mouth that corresponds the catch basin and is opened at the top has the delivery port that is linked together with the spray arm.

Preferably, a supporting edge which extends downwards and is supported on the periphery of the water storage groove is arranged at the edge of the bottom of the pump shell, and a water return port is formed in the supporting edge.

The pump shell comprises an upper shell and a lower shell which can be buckled up and down to enclose a pump cavity, the upper shell can be restrained on the lower shell in a vertically floating mode, the supporting edge is located at the edge of the bottom of the lower shell, and the edge of the upper shell is provided with a surrounding edge which can seal a water return opening after sinking along with the gravity of the upper shell and can open the water return opening after floating up hydraulically. By adopting the structure, the backwater port can be sealed in the steam pre-washing, steam sterilization and drying stages, and the steam is automatically driven to be conveyed into the washing cavity from bottom to top through the spray arm under the non-operating state of the power mechanism; the water return port is automatically opened in the water washing state, so that the water return efficiency is not affected; meanwhile, because the floating of the upper shell is realized by virtue of water pressure, the upper shell can also automatically adjust the volume of the pump cavity according to the water pressure, so that the water flow output is stable, and the problem of shaking and clamping stagnation of the spray arm caused by unstable water flow speed is solved.

Preferably, the lower shell comprises a first horizontal part and a supporting edge extending downwards from the edge of the first horizontal part, the water suction port is arranged at the central part of the first horizontal part, the upper shell comprises a ring-shaped second horizontal part corresponding to the first horizontal part, the surrounding edge extends downwards from the outer edge of the second horizontal part and corresponds to the periphery of the supporting edge, a cylinder extending upwards is arranged at the inner edge of the second horizontal part, the top of the cylinder gradually gathers together along the radial direction towards the middle to form the water outlet, and the cylinder and the upper surface of the first horizontal part jointly enclose the pump cavity. Through the structure, the relative floating between the upper shell and the lower shell is convenient to realize.

In order to facilitate the connection of the spray arm and the water pumping mechanism, the edge of the water outlet extends upwards to form a water outlet sleeve, and the water outlet sleeve is detachably connected with a water inlet at the bottom of the spray arm.

Preferably, the upper surface of the first horizontal part is provided with a spacing post extending upwards, correspondingly, the second horizontal part is provided with a spacing opening for the spacing post to pass through, and the top of the spacing post is provided with a spacing part capable of spacing the upper shell after floating upwards. The spacing distance of the spacing column to the upper shell is basically consistent with the height of the water return port, so that the water return port is ensured to be opened and closed smoothly.

Preferably, the upper surface of the first horizontal part is recessed at the outer edge thereof to form a receiving groove in which a sealing ring capable of sealing in contact with the inner surface of the upper housing after the upper housing is sunk is embedded.

The water pumping mechanism comprises a space guide vane, an impeller and a pump shell, wherein the space guide vane comprises a cover plate and guide vanes, the cover plate is transversely arranged in the middle of the pump shell and divides an inner cavity of the pump shell into an upper cavity and a lower cavity which are relatively independent, the water outlet is communicated with the upper cavity, the guide vanes are vertically arranged on the lower surface of the cover plate, the plurality of guide vanes cover the circumferential area of the cover plate and are circumferentially arranged at intervals, the guide vanes spirally extend inwards from the edge of the cover plate against the water flow direction, a guide flow channel is restrained between two adjacent guide vanes, and a notch for communicating the guide flow channel with the upper cavity is formed by at least partially deleting the cover plate part corresponding to the top of the guide vane; the impeller can be rotatably arranged in the lower cavity, an inlet corresponding to the water suction port is formed in the bottom of the impeller, and an outlet corresponding to the notch is formed in the side of the impeller. According to the utility model, the space guide vane and the impeller for axially outputting the axial water inlet after circumferential guiding and pressurizing are arranged in the pump shell so as to meet the water pressure requirement, and on the basis, the spray arm is arranged on the pump shell without being matched with the impeller, so that the water flow stability entering the spray arm is improved, and the rotation stability of the spray arm is further improved, and meanwhile, the impeller is not correspondingly matched with the water inlet of the spray arm, so that the water pressure at the water inlet of the spray arm is stable, and the problems of gas suction and water drainage are avoided.

Preferably, the water suction port is arranged on the bottom wall of the pump shell, the bottom wall of the pump shell at the periphery of the water suction port extends from outside to inside along the radial direction from top to bottom to form a first diversion curved surface, and the water suction port is positioned at the lowest end of the first diversion curved surface to form a downward detection type water suction port. The impeller is a centrifugal impeller. The structure is favorable for further improving the water absorption efficiency, rectifying and guiding the water entering the water absorption port and reducing the energy loss.

Preferably, the outer ends of the guide vanes are arranged close to the inner peripheral wall of the pump shell, the outer ends of the guide vanes are arranged close to the edge of the impeller, the outer end parts of the first guide vanes and the inner end arrangement parts of the second guide vanes are arranged in a staggered mode, so that the guide flow channel is enclosed, and the cover plate is in a range from the outer end of the corresponding first guide vane to the outer end of the second guide vane to form the notch. By adopting the structure, the notch is reasonably connected with the water outlet end of the water guide channel, so that the energy loss is reduced.

Preferably, the water outlet is formed in the central part of the top wall of the pump shell, and the upper surface of the cover plate is provided with a converging blade which extends from the edge to the middle in a spiral manner and is used for converging water conveyed from the notch to the water outlet. The structure can rectify and guide the water flow entering the upper cavity, avoid energy loss caused by water flow disorder and improve water pressure and lift.

Preferably, the upper surface of apron is provided with the water conservancy diversion awl that upwards extends gradually from edge to centre, and the pointed end of this water conservancy diversion awl corresponds the delivery port is arranged, the conflux blade be a plurality of and at apron circumference interval arrangement, the bottom edge of conflux blade is located the upper surface of water conservancy diversion awl. The structure can rectify and guide the water flow entering the upper cavity, avoid energy loss caused by water flow disorder and improve water pressure and lift.

Preferably, a driving part for driving the impeller to rotate is arranged below the pump shell, the driving part is positioned at the bottom outside the box body, and the power output shaft extends upwards to penetrate through the heating part and the water suction port to be connected with the impeller. By adopting the structure, the water absorption gap of the pump shell can be set very low so as to avoid gas water absorption, and meanwhile, the return water stroke can be further shortened, and the water pumping efficiency is improved.

Compared with the prior art, the utility model has the advantages that: when the problem that residual water exists due to uneven bottom of the box body is solved, contrary to the conventional thought of flattening the bottom of the box body, the submerged heating element is arranged to form the water storage tank, a small amount of water can be fed into the water storage tank and heated before washing, steam pre-washing is carried out on tableware, a large amount of water is fed into the water washing device and the heating element is used for heating washing water during washing, heating efficiency can be improved, residual water can be changed into steam to sterilize and dry the tableware after washing is finished, no residual water is realized, and good washing and drying effects are achieved.

Drawings

FIG. 1 is a schematic view of a cleaning machine according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the bottom structure of FIG. 1;

FIG. 3 is a cross-sectional view of a cleaning machine according to an embodiment of the present utility model;

FIG. 4 is an enlarged view of a portion of FIG. 3;

FIG. 5 is a schematic view of a pump housing according to an embodiment of the present utility model;

FIG. 6 is a schematic view of the bottom structure of FIG. 5;

FIG. 7 is an exploded view of FIG. 5;

FIG. 8 is a schematic diagram of a space vane in an embodiment of the present disclosure;

fig. 9 is a schematic view of the bottom structure of fig. 8.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 9, the cleaning machine of this embodiment includes a box 01, a spray arm 02 and a water pumping mechanism, a water return area 011 with a concave bottom is provided at the bottom of the box 01, a filter plate is covered at the top of the water return area 011, the spray arm 02 is rotatably disposed in the box 01 and is located above the filter plate near the bottom of the box 01, and the water pumping mechanism is used for pumping water in the water return area 011 of the box 01 into the spray arm 02.

The heating piece 4 of sinking is installed to the backwater region 011 bottom of box 01, promptly for the downwardly concave heating piece 4 of diapire in backwater region 011, heating piece 4 is thick film type hot plate, this heating piece 4 department is formed with the catch basin 41 that is less than the interior bottom wall of box 01, pump water mechanism is installed in box 01 and the pump case 1 bottom is opened has the water inlet 11 that corresponds catch basin 41 and is arranged, the top is opened has the delivery port 12 that is linked together with spray arm 02, pump case 1 bottom's edge is provided with downwardly extending and supports the supporting edge 13 at catch basin 41 outlying, open has return water opening 131 on this supporting edge 13.

The pump shell 1 comprises an upper shell 14 and a lower shell 15 which can be buckled up and down to enclose the pump cavity 10, the upper shell 14 can be restrained on the lower shell 15 in a vertically floating manner, the supporting edge 13 is positioned at the bottom edge of the lower shell 15, and the edge of the upper shell 14 is provided with a surrounding edge 141 which can seal the water return port 131 after sinking along with the gravity of the upper shell, and can open the water return port 131 after floating up hydraulically. With the adoption of the structure, the water return port 131 can be sealed in the steam pre-washing, steam sterilization and drying stages, and steam is automatically driven to be conveyed into the washing cavity from bottom to top through the spray arm under the non-operating state of the power mechanism, and the dried wet air is discharged through the air outlet on the side wall of the box body 01; the water return port 131 is automatically opened in the water washing state without affecting the water return efficiency; meanwhile, because the floating of the upper shell 14 is realized by the water pressure, the upper shell 14 can also automatically adjust the volume of the pump cavity 10 according to the water pressure, so that the water flow output is stable, and the problem of shaking and clamping stagnation of the spray arm caused by unstable water flow speed is solved.

The lower casing 15 includes a first horizontal portion 151 and a supporting edge 13 extending downward from the edge of the first horizontal portion 151, the water suction port 11 is opened at the central portion of the first horizontal portion 151, the upper casing 14 includes a ring-shaped second horizontal portion 142 corresponding to the first horizontal portion 151, the peripheral edge 141 extends downward from the outer edge of the second horizontal portion 142 and corresponds to the periphery of the supporting edge 13, a cylinder 143 extending upward is disposed at the inner edge of the second horizontal portion 142, the top of the cylinder 143 gradually gathers together radially toward the middle to form the water outlet 12, and the cylinder 143 and the upper surface of the first horizontal portion 151 enclose the pump cavity 10 together. With the above structure, relative floating between the upper case 14 and the lower case 15 is facilitated.

In order to facilitate the connection of the spray arm 02 with the water pumping mechanism, the edge of the water outlet 12 extends upwards to form a water outlet sleeve 121, and the water outlet sleeve 121 is detachably connected with the water inlet at the bottom of the spray arm 02 through a fastening structure.

The upper surface of the first horizontal portion 151 is provided with an upwardly extending limiting post 152, correspondingly, the second horizontal portion 142 is provided with a limiting opening 1421 through which the limiting post 152 passes, and the top of the limiting post 152 is provided with a limiting portion 1521 capable of limiting the upper housing 14 after floating. The spacing distance of the spacing post 152 to the upper shell 14 is basically consistent with the height of the water return port 131, so as to ensure smooth opening and closing of the water return port 131.

The upper surface of the first horizontal portion 151 is recessed at its outer edge to form a receiving groove 1522, and a seal ring 6 capable of sealing in contact with the inner surface of the upper case 14 after the upper case 14 is sunk is embedded in the receiving groove 1522.

In this embodiment, the water pumping mechanism includes a space guide vane a, an impeller 3 and a pump casing 1, where the space guide vane a includes a cover plate 2 and guide vanes 21, the cover plate 2 is transversely disposed in the middle of the pump casing 1 and separates the inner cavity of the pump casing 1 into an upper cavity 101 and a lower cavity 102 that are relatively independent, the water outlet 12 is communicated with the upper cavity 101, the guide vanes 21 are multiple and vertically disposed on the lower surface of the cover plate 2, the multiple guide vanes 21 cover the circumferential area of the cover plate 2 and are circumferentially spaced, the guide vanes 21 extend spirally inward from the edge of the cover plate 2 against the water flow direction, a guide flow channel 23 is constrained between two adjacent guide vanes 21, and a notch 24 for communicating the guide flow channel 23 with the upper cavity 101 is formed by at least partially missing a part of the cover plate 2 corresponding to the top of the guide vane 21; the impeller 3 is rotatably disposed in the lower chamber 102, and the impeller 3 is a centrifugal impeller. According to the embodiment, the space guide vane and the impeller for axially guiding pressurized axial inflow water and axially outputting the pressurized axial inflow water are arranged in the pump shell so as to meet the water pressure requirement, on the basis, the spray arm is arranged on the pump shell without being matched with the impeller, so that the water flow stability of the inflow spray arm is improved, the rotation stability of the spray arm is further improved, and meanwhile, the impeller is not correspondingly matched with the water inlet of the spray arm, so that the water pressure at the water inlet of the spray arm is stable, and the problems of gas suction and water leakage are avoided.

The water suction port 11 is formed on the bottom wall of the pump shell 1, the bottom wall of the pump shell 1 at the periphery of the water suction port 11 extends from outside to inside along the radial direction from top to bottom to form a first diversion curved surface 111, and the water suction port 11 is positioned at the lowest end of the first diversion curved surface 111 to form a downward detection type water suction port 11. The structure is favorable for further improving the water absorption efficiency, rectifying and guiding the water entering the water absorption port and reducing the energy loss.

The outer ends of the guide vanes 21 are arranged close to the inner peripheral wall of the pump shell 1, the outer ends of the guide vanes 21 are arranged close to the edge of the impeller 3, and in the two adjacent guide vanes 21, the outer end part of the first guide vane 21 and the inner end arrangement part of the second guide vane 21 are staggered, so that a guide flow channel 23 is enclosed, and a notch 24 is formed by the cover plate 2 in a range from the outer end of the corresponding first guide vane 21 to the outer end of the second guide vane 21. By adopting the structure, the notch is reasonably connected with the water outlet end of the water guide channel, so that the energy loss is reduced.

The water outlet 12 is arranged at the central part of the top wall of the pump shell 1, and the upper surface of the cover plate 2 is provided with a converging blade 25 which extends from the edge to the middle in a spiral manner and is used for converging the water conveyed by the notch 24 to the water outlet 12. The structure can rectify and guide the water flow entering the upper cavity, avoid energy loss caused by water flow disorder and improve water pressure and lift.

The upper surface of apron 2 is provided with the water conservancy diversion awl 26 that upwards extends gradually from edge to centre, and the pointed end of this water conservancy diversion awl 26 is arranged corresponding delivery port 12, and the conflux blade 25 is a plurality of and is arranged at apron 2 circumference interval, and the bottom edge of conflux blade 25 is located the upper surface of water conservancy diversion awl 26. The structure can rectify and guide the water flow entering the upper cavity, avoid energy loss caused by water flow disorder and improve water pressure and lift.

A driving part 5 for driving the impeller to rotate is arranged below the pump shell 1, the driving part 5 is a motor, the driving part 5 is positioned at the bottom outside the box body, and a power output shaft 51 extends upwards to pass through the heating part and the water suction port 11 to be connected with the impeller 3. By adopting the structure, the water suction gap of the pump shell 1 can be set very low, so that gas water suction is avoided, the return water stroke can be further shortened, and the water pumping efficiency is improved.

In this embodiment, when solving the problem that there is surplus water in the bottom of the case 01 because of the unevenness, contrary to the conventional thinking of making the bottom of the case 01 level, the sunken heating element 4 is provided and the water storage groove 41 is formed, a small amount of water can be fed into the water storage groove 41 and heated before washing, steam pre-washing is performed on tableware, when washing, a large amount of water is fed into and heated by the heating element 4 to wash water, heating efficiency can be improved, after washing is finished, the surplus water can be changed into steam to sterilize and dry the tableware, no surplus water is realized, and washing and drying effects are good.

In the description and claims of the present utility model, terms indicating directions, such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", etc., are used to describe various example structural parts and elements of the present utility model, but these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Because the disclosed embodiments of the utility model may be arranged in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting, such as "upper" and "lower" are not necessarily limited to being in a direction opposite or coincident with the direction of gravity.

Claims (13)

1. The utility model provides a cleaning machine, includes box (01), spray arm (02) and pump water mechanism, box (01) bottom is provided with return water region (011) of indent, spray arm (02) are located on return water region (011), pump water mechanism is arranged in with water from return water region (011) pump to spray arm (02), its characterized in that: the water pump is characterized in that a sunken heating part (4) is arranged at the bottom of the box body (01), a water storage groove (41) lower than the inner bottom wall of the box body (01) is formed at the heating part (4), the water pumping mechanism is arranged in a water return area, a water suction port (11) corresponding to the water storage groove (41) is formed in the bottom of the pump shell (1), and a water outlet (12) communicated with the spray arm (02) is formed in the top of the water suction port.

2. The cleaning machine of claim 1, wherein: the edge of the bottom of the pump shell (1) is provided with a supporting edge (13) which extends downwards and is supported on the periphery of the water storage groove (41), and the supporting edge (13) is provided with a water return port (131).

3. The cleaning machine of claim 2, wherein: the pump casing (1) comprises an upper casing (14) and a lower casing (15) which can be buckled up and down to enclose the pump cavity (10), the upper casing (14) can be restrained on the lower casing (15) in an up-down floating mode, the supporting edge (13) is positioned at the bottom edge of the lower casing (15), and the edge of the upper casing (14) is provided with a surrounding edge (141) which can seal the water return port (131) after sinking along with the gravity of the upper casing and open the water return port (131) after floating up in a hydraulic mode.

4. A cleaning machine as claimed in claim 3, wherein: the lower shell (15) comprises a first horizontal part (151) and a supporting edge (13) extending downwards from the edge of the first horizontal part (151), the water suction port (11) is formed in the central part of the first horizontal part (151), the upper shell (14) comprises an annular second horizontal part (142) which corresponds to the first horizontal part (151), the surrounding edge (141) extends downwards from the outer edge of the second horizontal part (142) and corresponds to the periphery of the supporting edge (13), an upwards extending cylinder body (143) is arranged at the inner edge of the second horizontal part (142), the top of the cylinder body (143) gradually gathers along the radial direction towards the middle to form the water outlet (12), and the cylinder body (143) and the upper surface of the first horizontal part (151) jointly enclose the pump cavity (10).

5. The cleaning machine of claim 4, wherein: the edge of the water outlet (12) extends upwards to form a water outlet sleeve (121), and the water outlet sleeve (121) is detachably connected with a water inlet at the bottom of the spray arm (02).

6. The cleaning machine of claim 4, wherein: the upper surface of first horizontal part (151) is provided with spacing post (152) of upwards extending, correspondingly, open on second horizontal part (142) and supply spacing mouth (1421) that spacing post (152) passed, the top of spacing post (152) is provided with spacing portion (1521) that can carry out spacing to upper housing (14) after floating.

7. The cleaning machine of claim 4, wherein: the upper surface of the first horizontal part (151) is concave downwards at the outer edge of the first horizontal part to form a containing groove (1522), and a sealing ring (6) which can be in contact with and seal with the inner surface of the upper shell (14) after the upper shell (14) is sunken is embedded in the containing groove (1522).

8. The cleaning machine of any one of claims 1-7, wherein: the water pumping mechanism comprises a space guide vane (A), an impeller (3) and a pump shell (1), wherein the space guide vane (A) comprises a cover plate (2) and guide vanes (21), the cover plate (2) is transversely arranged in the middle of the pump shell (1) and divides the inner cavity of the pump shell (1) into an upper cavity (101) and a lower cavity (102) which are relatively independent, the water outlet (12) is communicated with the upper cavity (101), the guide vanes (21) are multiple and vertically arranged on the lower surface of the cover plate (2), the guide vanes (21) cover the circumferential area of the cover plate (2) and are distributed at intervals along the circumferential direction, the guide vanes (21) spirally extend inwards from the edge of the cover plate (2) in the reverse water flow direction, a guide flow channel (23) is restrained between two adjacent guide vanes (21), and a notch (24) for the guide flow channel (23) to be communicated with the upper cavity (101) is formed by at least partially deleting the part of the cover plate (2) corresponding to the top of the guide vanes (21). The impeller (3) can be rotatably arranged in the lower cavity (102), an inlet (31) which is arranged corresponding to the water suction port (11) is formed in the bottom of the impeller (3), and an outlet (32) which is arranged corresponding to the notch (24) is formed in the side part of the impeller.

9. The cleaning machine of claim 8, wherein: the water suction port (11) is arranged on the bottom wall of the pump shell (1), the bottom wall of the pump shell (1) at the periphery of the water suction port (11) extends from outside to inside along the radial direction from top to bottom to form a first diversion curved surface (111), and the water suction port (11) is positioned at the lowest end of the first diversion curved surface (111) to form a downward detection type water suction port (11).

10. The cleaning machine of claim 8, wherein: the outer ends of the guide vanes (21) are close to the inner peripheral wall of the pump shell (1), the outer ends of the guide vanes are close to the edge of the impeller (3), in the two guide vanes (21) which are adjacently arranged, the outer end parts of the first guide vanes (21) and the inner end arrangement parts of the second guide vanes (21) are arranged in a staggered mode so as to enclose the guide flow channel (23), and the cover plate (2) is in a range from the outer end of the corresponding first guide vane (21) to the outer end of the second guide vane (21) so as to form the notch (24).

11. The cleaning machine of claim 8, wherein: the water outlet (12) is arranged at the central part of the top wall of the pump shell (1), and the upper surface of the cover plate (2) is provided with a converging blade (25) which extends from the edge to the middle in a spiral manner and is used for converging water conveyed by the notch (24) to the water outlet (12).

12. The cleaning machine of claim 11, wherein: the upper surface of apron (2) is provided with from edge to middle guide cone (26) that upwards extends gradually, and the pointed end of this guide cone (26) corresponds delivery port (12) are arranged, confluxation blade (25) be a plurality of and at apron (2) circumference upper interval arrangement, the bottom edge of confluxation blade (25) is located the upper surface of guide cone (26).

13. The cleaning machine of claim 8, wherein: a driving part (5) for driving the impeller to rotate is arranged below the pump shell (1), the driving part (5) is positioned at the outer bottom of the box body, and a power output shaft (51) upwards extends through the heating part (4) and the water suction port (11) is connected with the impeller (3).