CN219070165U

CN219070165U - Cleaning machine

Info

Publication number: CN219070165U
Application number: CN202223234172.4U
Authority: CN
Inventors: 王式兴; 何小磊; 朱开杰
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2022-11-30
Filing date: 2022-11-30
Publication date: 2023-05-26
Anticipated expiration: 2032-11-30

Abstract

The utility model relates to a cleaning machine, which comprises a box body and a water cup arranged at the bottom of the box body, wherein the water cup is provided with a concave water return area, the water return area is provided with a relative length and a relative width, the water return area is provided with a slag collecting area and a water absorbing area which are arranged side by side along the length direction of the water return area, the bottom wall of the water cup corresponding to the water absorbing area is provided with a mounting opening for mounting a water pumping mechanism, and the periphery of the mounting opening forms a heating area for mounting a heating element. According to the utility model, the water return area is set to be long, only the slag collecting area and the water absorbing area are set, and the water absorbing area is used for installing the heating element, so that the plane occupied area of the water return area is greatly saved, the volume of the water return area is reduced as a whole, and therefore, the water consumption for washing can be effectively reduced, and the water return efficiency and the cleaning effect are improved; meanwhile, the heating element is arranged in the water absorption area, so that the heat utilization rate and the heating efficiency are improved.

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

With the increasing level of living of people, dish washers are increasingly entering home as household electrical appliances for kitchen use. The existing dish-washing machines on the market are generally divided into three types of a desk type dish-washing machine, a cabinet type dish-washing machine and a trough type dish-washing machine, wherein the desk type dish-washing machine is of an integral independent structure and is generally placed on a desk for use; the cabinet type dish washer is also an independent structure, but needs to be embedded into a kitchen cabinet for use; the tub dishwasher is combined with a tub and is generally installed in a kitchen cabinet.

The utility model provides a structure is disclosed to applicant's preceding patent ZL202221185181.6 "a cleaning machine", it includes box, guide holder and collection sediment basket, the box bottom is provided with the return water region of indent, the top in return water region covers and is used for carrying the water in the return water region to above the filter in the return water region, the lower part of collection sediment basket passes the filter holding in the return water region, upper portion exposes in the filter, the partial edge in return water region forms outwards arching and along the water conservancy diversion structure of circumference spiral arrangement, collection sediment basket is close to this water conservancy diversion structure arrangement, the lower extreme of guide holder is sealed, open the water sucking mouth that corresponds collection sediment basket and water conservancy diversion structure arrangement on the lateral wall.

In the cleaning machine of above-mentioned structure, because water pump, collection sediment basket, heating plate are at the internal interval arrangement of backwater district, consequently the area in backwater district needs to cover three at least, leads to backwater district volume great, and the washing water consumption that corresponds needs is great, has not only caused certain water yield extravagant, has influenced backwater efficiency and cleaning performance moreover to a great extent.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a cleaning machine capable of reducing the water consumption for washing so as to improve the water return efficiency and the cleaning effect.

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

the utility model provides a cleaning machine, includes the box and locates the drinking cup of box bottom, the drinking cup is provided with the backwater region of indent, backwater region has relative length and width, be provided with in the backwater region along its length direction collection sediment region, the region of absorbing water that arranges side by side, open on the drinking cup diapire that the region of absorbing water corresponds and be used for installing pump water mechanism's installing port, the periphery of this installing port constitutes the zone of heating that is used for installing the heating member.

According to the utility model, the water return area is set to be long, only the slag collecting area and the water absorbing area are set, and the water absorbing area is used for installing the heating element, so that the plane occupied area of the water return area is greatly saved, the volume of the water return area is reduced as a whole, and therefore, the water consumption for washing can be effectively reduced, and the water return efficiency and the cleaning effect are improved; meanwhile, the heating element is arranged in the water absorption area, so that the heat utilization rate and the heating efficiency are improved.

Preferably, the slag collecting region is arranged close to the first end of the water returning region, and an arc side wall matched with the circular slag collecting region is formed at the first end of the water returning region. The slag collecting area is used for installing the slag collecting basket, the structure is arranged, the circular arc side wall is arranged corresponding to the peripheral wall of the slag collecting basket, and the circular arc side wall can play a role in diversion and flow gathering due to the fact that the water flow speed near the slag collecting basket is large, so that water flow energy loss caused by the large water flow speed at the position is avoided, and slag collecting effect and water return effect are improved.

Preferably, the water absorbing area is arranged near the second end of the water returning area, the heating element is of an annular structure with an opening in the circumferential direction, and a connecting area for connecting the end of the heating element with a power supply is formed between the water absorbing area and the second end of the water returning area. Because the water velocity at the second end of return water region is very slow, with the connection zone setting here, the installation of being convenient for does not occupy the effective return water volume of return water region.

In order to facilitate installation, a power supply connecting piece embedded on the bottom wall of the water cup is arranged in the connecting area, the bottom of the power supply connecting piece is connected with a power supply, and the top of the power supply connecting piece is connected with two ends of the opening of the heating piece.

Preferably, the first side wall and the second side wall of the water return area which are oppositely arranged are correspondingly provided with arc-shaped parts which are expanded outwards, and the arc-shaped parts are matched with the shape of the periphery of the heating element. The spray arm is installed on the water absorption area generally through the flow guide seat, the water absorption water flow speed is high, and after the annular heating piece is arranged, certain interference can be caused to water absorption, the arc-shaped part is arranged to be matched with the heating piece, water flow is guided, and interference to the water flow is reduced.

Preferably, the slag collecting area is arranged lower than the water absorbing area, and the water absorbing area is connected with the edge of the slag collecting area through a flow guiding inclined plane which is gradually inclined from top to bottom. The structure is favorable for improving the backwater efficiency and realizing the purpose of no surplus water during drainage.

Preferably, the bottom of the water cup is provided with a drain valve casing and a pump casing which are integrally formed with a drain outlet at the bottom of the slag collecting area. The box body is generally made of metal materials, the water cup is made of plastics which are convenient to form various shapes, and the drain valve casing and the pump shell are integrally formed at the bottom of the water cup, so that the production and the subsequent assembly are convenient.

For the assembly of being convenient for, the box bottom is provided with the first connecting portion of vertical extension, from the second connecting portion of inwards bending of this first connecting portion lower limb level, form the lower opening that corresponds the open top correspondence of corresponding drinking cup in the second connecting portion, the drinking cup top is provided with the saddle that supplies on the support of second connecting portion, and this saddle outward flange is provided with vertical extension and surrounds at first connecting portion outlying surrounding edge.

Preferably, a sealing ring is embedded between the upper surface of the supporting platform, the inner side of the surrounding edge and the outer wall of the first connecting part, and the second connecting part is directly connected with the supporting platform through screw locking. Preferably, the inner edge of the second connecting part is provided with a plug edge which extends downwards and is arranged close to the inner wall surface of the water cup. By adopting the structure, the connection tightness and reliability between the water cup and the box body are improved.

Compared with the prior art, the utility model has the advantages that: according to the utility model, the water return area is set to be long, only the slag collecting area and the water absorbing area are set, and the water absorbing area is used for installing the heating element, so that the plane occupied area of the water return area is greatly saved, the volume of the water return area is reduced as a whole, and therefore, the water consumption for washing can be effectively reduced, and the water return efficiency and the cleaning effect are improved; meanwhile, the heating element is arranged in the water absorption area, so that the heat utilization rate and the heating efficiency are improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of a structure of a water cup according to an embodiment of the present utility model;

fig. 4 is a schematic view of the bottom of fig. 3.

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 4, the cleaning machine of the present embodiment includes a tank 1 and a water cup 2 disposed at the bottom of the tank 1, the water cup 2 is provided with a water return area 21 recessed, and the water return area 21 has a relative length and width, and is substantially in a long strip shape. The water return area 21 is provided with a slag collecting area 211 and a water absorbing area 212 which are arranged side by side along the length direction, the bottom wall of the water cup 2 corresponding to the water absorbing area 212 is provided with a mounting opening 213 for mounting the water pumping mechanism 3, and the periphery of the mounting opening 213 forms a heating area for mounting the heating element 4.

The slag collecting region 211 is arranged near a first end of the water return region 21, and an arc side wall 201 matched with the circular slag collecting region 211 is formed at the first end of the water return region 21. The slag collecting area 211 is used for installing the slag collecting basket, the structure is arranged, the circular arc side wall 201 is arranged corresponding to the peripheral wall of the slag collecting basket, and the circular arc side wall 201 can play roles in diversion and flow collection due to the fact that the water flow speed is large near the slag collecting basket, so that water flow energy loss caused by the large water flow speed is avoided, and slag collecting effect and water return effect are improved.

The water absorbing region 212 is disposed near the second end of the water returning region 21, the heating element 4 has an annular structure with an opening in the circumferential direction, and a connection region 214 for connecting the end of the heating element 4 with a power supply is formed between the water absorbing region 212 and the second end of the water returning region 21. Since the water flow rate at the second end of the water return area 21 is slow, the connection area 214 is provided there, which is convenient for installation and does not occupy the effective water return volume of the water return area 21. For easy installation, a power connector 41 embedded on the bottom wall of the water cup 2 is arranged in the connecting area 214, the bottom of the power connector 41 is connected with a power source, and the top of the power connector 41 is connected with two ends of the opening of the heating element 4.

The first side wall and the second side wall of the water return area 21 which are oppositely arranged are correspondingly provided with an outwards-expanded arc-shaped part 215, and the arc-shaped part 215 is matched with the shape of the periphery of the heating element 4. The spray arm is installed on the water suction area 212 through the flow guide seat, the water suction flow speed is high, and after the annular heating element 4 is arranged, certain interference can be caused to water suction, the arc-shaped part 215 is arranged to be matched with the heating element 4, so that the water flow is guided, and the interference to the water flow is reduced.

The slag collecting region 211 is arranged below the water absorbing region 212, and the water absorbing region 212 is connected with the edge of the slag collecting region 211 through a flow guiding inclined plane 216 which is gradually inclined from top to bottom. The structure is favorable for improving the backwater efficiency and realizing the purpose of no surplus water during drainage.

The bottom of the water cup 2 is provided with a drain valve housing 217 and a pump housing 218 which are integrally formed with a drain outlet 2111 at the bottom of the slag collecting region 211. The box body 1 is made of metal materials, the water cup 2 is made of plastic which is convenient to form various shapes, and the drain valve casing and the pump shell are integrally formed at the bottom of the water cup, so that the production and the subsequent assembly are convenient.

In order to facilitate assembly, the bottom of the box body 1 is provided with a first connecting part 11 extending vertically and a second connecting part 12 bending inwards horizontally from the lower edge of the first connecting part 11, a lower opening corresponding to the top opening of the corresponding water cup 2 is formed in the second connecting part 12, the top of the water cup 2 is provided with a supporting platform 22 for supporting the second connecting part 12, and the outer edge of the supporting platform 22 is provided with a surrounding edge 23 extending vertically and surrounding the periphery of the first connecting part 11.

Sealing rings are embedded between the upper surface of the supporting platform 22, the inner side of the surrounding edge 23 and the outer wall of the first connecting part 11, and the second connecting part 12 is directly connected with the supporting platform 22 through screw locking. The inner edge of the second connecting portion 12 is provided with a plug edge 121 extending downward and arranged close to the inner wall surface of the water cup 2. By adopting the structure, the connection tightness and reliability between the water cup 2 and the box body 1 are improved.

In the embodiment, the water return area 21 is arranged in a long strip shape, only the slag collecting area 211 and the water absorbing area 212 are arranged, the heating element 4 is arranged by utilizing the water absorbing area 212, the plane occupied area of the water return area 21 is greatly saved, the volume of the water return area 21 is reduced as a whole, and therefore the washing water consumption can be effectively reduced, and the water return efficiency and the cleaning effect are improved; meanwhile, the heating element 4 is arranged in the water absorption area 212, so that the heat utilization rate and the heating efficiency are improved.

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

1. The utility model provides a cleaning machine, includes box (1) and locates drinking cup (2) of box (1) bottom, drinking cup (2) are provided with concave return water region (21), its characterized in that: the water return area (21) has relative length and width, slag collecting areas (211) and water absorbing areas (212) which are arranged side by side along the length direction of the water return area (21) are arranged in the water return area (21), a mounting opening (213) for mounting the water pumping mechanism (3) is formed in the bottom wall of the water cup (2) corresponding to the water absorbing areas (212), and a heating area for mounting the heating element (4) is formed in the periphery of the mounting opening (213).

2. The cleaning machine of claim 1, wherein: the slag collecting region (211) is arranged close to the first end of the water returning region (21), and an arc side wall (201) matched with the circular slag collecting region (211) is formed at the first end of the water returning region (21).

3. The cleaning machine of claim 2, wherein: the water absorption area (212) is arranged close to the second end of the water return area (21), the heating element (4) is of an annular structure with an opening in the circumferential direction, and a connecting area (214) for connecting the end part of the heating element (4) with a power supply is formed between the water absorption area (212) and the second end of the water return area (21).

4. A cleaning machine as claimed in claim 3, wherein: the connecting area (214) is internally provided with a power supply connecting piece (41) embedded on the bottom wall of the water cup (2), the bottom of the power supply connecting piece (41) is connected with a power supply, and the top of the power supply connecting piece (41) is connected with two ends of an opening of the heating piece (4).

5. The cleaning machine according to any one of claims 1 to 4, wherein: the first side wall and the second side wall of the water return area (21) which are oppositely arranged are correspondingly provided with arc-shaped parts (215) which are outwards expanded, and the arc-shaped parts (215) are matched with the shape of the periphery of the heating piece (4).

6. The cleaning machine according to any one of claims 1 to 4, wherein: the slag collecting area (211) is lower than the water absorbing area (212), and the water absorbing area (212) is connected with the edge of the slag collecting area (211) through a flow guiding inclined plane (216) which is gradually inclined from top to bottom.

7. The cleaning machine according to any one of claims 1 to 4, wherein: the bottom of the water cup (2) is provided with a drain valve casing (217) and a pump casing (218) which are integrally formed with a drain outlet at the bottom of the slag collecting region (211).

8. The cleaning machine according to any one of claims 1 to 4, wherein: the utility model discloses a water cup, including box (1), support platform (22) on the top of water cup (2), box (1) bottom is provided with first connecting portion (11) of vertical extension, inwards bends second connecting portion (12) from this first connecting portion (11) lower limb level, form the lower opening that corresponds the open top of corresponding water cup (2) in second connecting portion (12), be provided with support platform (22) on the support of second connecting portion (12) outward flange is provided with vertical extension and surrounds peripheral surrounding edge (23) at first connecting portion (11).

9. The cleaning machine of claim 8, wherein: sealing rings are embedded between the upper surface of the supporting table (22), the inner side of the surrounding edge (23) and the outer wall of the first connecting part (11), and the second connecting part (12) is directly connected with the supporting table (22) through screw locking.

10. The cleaning machine of claim 8, wherein: the inner edge of the second connecting part (12) is provided with a plug edge (121) which extends downwards and is arranged close to the inner wall surface of the water cup (2).