CN106466159B - Layered waterway structure of dish washer and dish washer - Google Patents

Abstract

The invention relates to the technical field of household appliances, in particular to a layered waterway structure of a dish washer and the dish washer. The layered waterway structure of the dish washer comprises at least two waterway mounting plates and layered waterways horizontally arranged between the waterway mounting plates, wherein the layered waterways are also provided with corresponding connectors for connecting different waterway components, and the layered waterways comprise channels formed by interval arrangement of channel walls with set heights; the layered waterway comprises a diversion layered waterway and a circulation layered waterway, wherein at least the upper end and the lower end of the channel wall of the diversion layered waterway are in sealing connection with adjacent waterway mounting plates. The dishwasher is provided with the layered waterway structure. The occupied space of the waterway structure is reduced, the use of the pipe clamps or the pipe hoops is reduced, the installation of the waterway is simplified, and the installation or maintenance efficiency is improved. The volume of the whole dish washing machine is reduced, the volume of the dish washing space is increased, and the production cost is reduced.

Description

Layered waterway structure of dish washer and dish washer

Technical Field

The invention relates to the technical field of household appliances, in particular to a layered waterway structure of a dish washer and the dish washer.

Background

Dish washing machines are devices for automatically washing dishes such as bowls, chopsticks, plates, dishes, knives, forks and the like, and can be divided into two main types according to structures. The labor intensity of cooking personnel in dining halls of restaurants, hotels and institutions is reduced, the working efficiency is improved, and the cleanness and the sanitation are improved.

The prior water path system of the dish washer is generally composed of a water tank, a heater, a washing pump, a drainage pump, a sprayer, an electromagnetic valve and the like, wherein the components are connected through pipelines, the pipelines are generally rubber pipes, the pipelines are inserted into the components, and the ports are generally fastened through pipe hoops.

In the mode, each connecting part can generate two joints, the whole waterway system is installed down to cause a large number of joints, and the installation of the pipe hoop needs special tools and is complex. Because the joints with other shapes are extremely easy to fail, the rubber pipe can be generally only round, and the joints such as the pipe clamp and the pipe clamp are quite large, so that hidden dangers such as water leakage can be caused by the failure of the pipe clamp or the pipe clamp.

Meanwhile, a large amount of space is wasted when the actual pipeline is arranged in the mode, and only a small part of space is utilized, so that a large amount of space is wasted. Meanwhile, various pipelines are mutually wound, so that the maintenance, the installation and the replacement are inconvenient, and the noise control is also not facilitated.

Disclosure of Invention

The invention aims to provide a layered waterway structure of a dish washer, which reduces the space occupation of the waterway structure and the application of a pipe clamp or a pipe hoop by the design of formatted and layered waterway pipelines, further simplifies the installation of the waterway, is more beneficial to overhauling and installation, and improves the installation or overhauling efficiency.

The design of the layered waterway structure reduces the volume of the whole dish washing machine, increases the volume of the dish washing space, reduces the difficulty of installation, reduces the production cost and is beneficial to eliminating the noise of the dish washing machine.

To achieve the purpose, the invention adopts the following technical scheme:

the layered waterway structure of the dish washer comprises at least two waterway mounting plates and layered waterways horizontally arranged between the waterway mounting plates, wherein the layered waterways are also provided with corresponding connectors for connecting different waterway components; the layered waterway comprises channels formed by interval arrangement of channel walls with set height; the layered waterway comprises a diversion layered waterway and a circulation layered waterway, wherein at least the upper end and the lower end of the channel wall of the diversion layered waterway are in sealing connection with adjacent waterway mounting plates.

As one of the preferable technical schemes, the channel wall is a closed channel separated from the adjacent waterway mounting plates, and the closed channel is fixed on the adjacent waterway mounting plates in a sticking or clamping mode.

As one of the preferable technical schemes, the channel wall is a partition wall which is in sealing connection with the adjacent waterway mounting plates, the partition wall is stuck, clamped or injection-molded on the corresponding waterway mounting plates, and the adjacent partition wall forms a corresponding channel.

As one of the preferable technical schemes, the channel walls are partition walls which are in sealing connection with the adjacent waterway mounting plates, the partition walls are connected to the corresponding waterway mounting plates in a sealing manner through hot melting, and the adjacent partition walls form corresponding channels.

As one of the preferable technical schemes, the waterway mounting plate comprises a first waterway mounting plate, a second waterway mounting plate and a third waterway mounting plate from top to bottom, and the diversion laminar waterway is arranged between the first waterway mounting plate and the second waterway mounting plate; the upper end and the lower end of the circulating layered waterway are propped between the second waterway mounting plate and the third waterway mounting plate, and the diversion layered waterway and the circulating layered waterway are communicated with the water tank.

As one of the preferable technical schemes, the third waterway mounting plate is also provided with a drainage system for draining water overflowed from the circulating lamellar waterway out of the waterway structure.

As one of the preferable technical schemes, the upper end and the lower end of the circulating layered waterway are connected to the second waterway mounting plate and the third waterway mounting plate in a sealing manner.

As one of the preferable technical schemes, the first waterway mounting plate is provided with a sprayer base, the sprayer base is provided with a sprayer, a spraying pipeline of the sprayer extends into a corresponding diversion laminar waterway from the first waterway mounting plate, and the spraying pipeline is in sealing connection with the first waterway mounting plate; the third waterway mounting plate is further provided with a heater interface and a water pump interface, and the circulating lamellar waterway is enclosed on the outer sides of the heater interface and the water pump interface and extends into the water tank.

As one of the preferable technical schemes, the first waterway mounting plate and the second waterway mounting plate are respectively and correspondingly provided with a water receiving groove corresponding to the water tank, the water receiving grooves are respectively and hermetically connected with the second waterway mounting plate and the third waterway mounting plate, and the water receiving grooves are communicated with the water tank.

As one of the preferable technical schemes, a filtering device is also arranged in the water tank.

A dish-washing machine is provided with a layered waterway structure of the dish-washing machine.

The beneficial effects of the invention are as follows: through the design of formatted and layered water channel pipelines, the occupied space of the water channel structure is reduced, the pipe clamps or pipe hoops are reduced, the installation of the water channel is further simplified, meanwhile, the overhaul and the installation are facilitated, and the installation or overhaul efficiency is improved. Through the design of lamellar waterway structure, the volume of the whole dish washing machine is reduced, the volume of dish washing space is increased, the difficulty of installation is reduced, the production cost is reduced, and the noise elimination of the dish washing machine is facilitated.

Drawings

Fig. 1 is a schematic structural view of a hierarchical waterway structure of a dishwasher according to embodiment 1 of the present invention.

In the figure:

1. a first waterway mounting plate; 2. a channel wall; 3. a second waterway mounting plate; 4. a third waterway mounting plate; 5. diversion layer waterway; 6. circulating a layered waterway; 7. a water tank; 8. a sprayer base; 9. a heater interface; 10. a water pump interface; 11. a water receiving groove; 12. and a filtering device.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Example 1

The dishwasher waterway structure mainly adopts the pipe clamp or the pipe hoop to be fixed on corresponding parts in the dishwasher through the water pipe in a sealing way, a plurality of pipelines are often crossed during installation, and because the pipelines have certain length and hardness, the requirements on the accommodating space are high, so that the occupied space of the integral water structure in the integral structure of the dishwasher is large, and the installation difficulty is increased.

As shown in fig. 1, the invention provides a layered waterway structure of a dish washer, which comprises at least two waterway mounting plates and layered waterways horizontally arranged between the waterway mounting plates, wherein the waterway mounting plates are used for arranging corresponding water using devices.

The layered water channel is also provided with corresponding connectors for connecting different water channel components, further, the connectors are used for fixedly and hermetically connecting water devices corresponding to the layered water channel, and the layered water channel comprises channels formed by arranging channel walls 2 with set heights at intervals. The channel wall 2 may be arcuate or may be vertical or may even be semi-circular.

The lamellar waterway comprises a diversion lamellar waterway 5 and a circulation lamellar waterway 6, wherein the upper end and the lower end of the channel wall 2 of the diversion lamellar waterway 5 are in sealing connection with adjacent waterway mounting plates, so that the diversion lamellar waterway 5 is prevented from leaking due to high pressure required by a sprayer and a water pump during operation.

The circulating lamellar waterway 6 is mainly used for recovering the water sprayed by the sprayer into the water tank 7 for reuse, so that the water pressure of the circulating lamellar waterway 6 is low, and the upper end and the lower end of the circulating lamellar waterway 6 are propped between adjacent waterway mounting plates.

As one of the preferable technical schemes, the water channel mounting plate is also provided with a drainage system for draining water overflowed from the top of the channel wall out of the water channel structure. So as to prevent excessive water storage in the space where the circulating laminar waterway 6 is located.

As one of the preferred embodiments, the channel wall 2 is a closed channel separated from an adjacent waterway mounting plate, and the closed channel is fixed on the adjacent waterway mounting plate by pasting or clamping. Specifically, the channel can be made of a soft rubber tube, and the soft rubber tube is in sealing connection at the joint of the water using device in a heating welding or secondary injection molding mode.

As one of the preferred technical schemes, the channel wall 2 is a partition wall in sealing connection with the adjacent waterway mounting plates, the partition wall is stuck, clamped or injection-molded on the corresponding waterway mounting plates, and the adjacent partition wall forms a corresponding channel. Specifically, the partition walls are made of soft plastic or silica gel, and the width between the adjacent partition walls can be correspondingly adjusted along with the water consumption of the water consumption device.

As one of the preferable technical schemes, the upper end and the lower end of the channel wall 2 of the diversion laminar waterway 5 are of concave structures which are easy to attach and seal, so that the water in the better sealed channel is not leaked.

As one of the preferred technical schemes, the channel wall 2 is a partition wall in sealing connection with the adjacent waterway mounting plates, the partition wall is connected to the corresponding waterway mounting plates in a sealing manner through hot melt, and the adjacent partition walls form corresponding channels.

As one of the preferable technical schemes, the waterway mounting plate comprises a first waterway mounting plate 1, a second waterway mounting plate 3 and a third waterway mounting plate 4 from top to bottom, and the diversion laminar waterway 5 is arranged between the first waterway mounting plate 1 and the second waterway mounting plate 3; the diversion laminar waterway 5 is used for pressurizing the water body in the water tank 7 through a water pump and pumping the water body to the sprayer after mixing the washing liquid so as to conveniently spray the water body to wash bowls and chopsticks in the inner container through the sprayer.

The upper end and the lower end of the circulating lamellar waterway 6 are propped between the second waterway mounting plate 3 and the third waterway mounting plate 4, and the diversion lamellar waterway 5 and the circulating lamellar waterway 6 are communicated with the water tank 7. The circulating laminar waterway 6 is used for re-flowing the water body sprayed by the sprayer back into the water tank 7 and extracting and using again.

As one of the preferred technical schemes, the first waterway mounting plate 1 is provided with a sprayer base 8, and the sprayer base 8 is provided with sprayers, the number of the sprayers can be set according to specific conditions, the spraying pipelines of the sprayers extend into the corresponding diversion lamellar waterways 5 from the first waterway mounting plate 1, and the spraying pipelines are in sealing connection with the first waterway mounting plate 1.

As one of the preferred technical schemes, the water tank 7 is arranged on the third waterway mounting plate 4, and the third waterway mounting plate 4 is further provided with a heater interface 9 and a water pump interface 10, the heater interface 9 is internally provided with a heater in a screwed manner, the heater is used for heating the water flowing through, the water pump interface 10 is internally provided with a water pump in a screwed manner for extracting the water in the water tank 7, a motor of the water pump is fixed on the third waterway mounting plate 4, and a rotor of the motor is positioned on the second waterway mounting plate 3. The circulating layered waterway 6 is arranged on the outer sides of the heater joint 9 and the water pump joint 10 in a surrounding manner and stretches into the water tank 7 so as to obtain water from the water tank 7.

As one of the preferred technical schemes, the first waterway mounting plate 1 and the second waterway mounting plate 3 are respectively provided with a water receiving groove 11 corresponding to the water tank 7, and the water receiving grooves 11 are also provided with water receiving ports for recovering the water sprayed by the sprayer and flowing into the water tank 7 through a channel or a pipeline.

Preferably, a filtering device 12 is further arranged in the water tank 7 to keep the water clean, prevent food residues or greases carried by the washing water from polluting bowls and chopsticks again, and prevent the water pump from causing work disorder due to the food residues or greases when the water pump pumps the water.

Preferably, the water receiving groove 11 is respectively connected with the second waterway mounting plate 3 and the third waterway mounting plate 4 in a sealing way, and the water receiving groove 11 is communicated with the water tank 7. The water receiving groove 11 is in sealing connection with the second waterway mounting plate 3 and the third waterway mounting plate 4, so that washing water recovered from the first waterway mounting plate 1 can be prevented from flowing into the space between the waterway mounting plates, and water leakage in the waterway space and corresponding water device corrosion can be prevented.

Example 2

Unlike embodiment 1, the upper and lower ends of the circulation laminar waterway are hermetically connected to the second waterway mounting plate and the third waterway mounting plate. The upper end and the lower end of the channel wall of the circulating laminar waterway are in sealing connection with the adjacent waterway mounting plates.

The invention also provides a dish-washing machine, which is provided with the layered waterway structure of the dish-washing machine.

In summary, through the design of the formatted and layered water channel pipeline, the occupied space of the water channel structure is reduced, the pipe clamps or the pipe hoops are reduced, the installation of the water channel is further simplified, meanwhile, the overhaul and the installation are facilitated, and the installation or overhaul efficiency is improved. Through the design of lamellar waterway structure, the volume of the whole dish washing machine is reduced, the volume of dish washing space is increased, the difficulty of installation is reduced, the production cost is reduced, and the noise elimination of the dish washing machine is facilitated.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. The layered waterway structure of the dish washer is characterized by comprising at least two waterway mounting plates and a layered waterway horizontally arranged between the waterway mounting plates, wherein the layered waterway is also provided with corresponding connectors for connecting different waterway components, and the layered waterway comprises channels formed by interval arrangement of channel walls (2) with set heights; the layered waterway comprises a diversion layered waterway (5) and a circulation layered waterway (6), wherein at least the upper end and the lower end of a channel wall (2) of the diversion layered waterway (5) are in sealing connection with adjacent waterway mounting plates.

2. The hierarchical waterway structure of dish washer according to claim 1, characterized in that the channel wall (2) is a closed passageway separated from the adjacent waterway mounting plate, and the closed passageway is fixed to the adjacent waterway mounting plate by means of adhesion or clamping.

3. The layered waterway structure of dish washer according to claim 2, characterized in that the channel wall (2) is a partition wall hermetically connected with the adjacent waterway mounting plates, and the partition wall is adhered, clamped or injection-molded on the corresponding waterway mounting plate, and the adjacent partition wall forms the corresponding channel.

4. The layered waterway structure of dish washer according to claim 2, characterized in that the channel wall (2) is a partition wall hermetically connected to the adjacent waterway mounting plate, the partition wall being hermetically connected to the corresponding waterway mounting plate by heat fusion, the adjacent partition wall constituting the corresponding channel.

5. The hierarchical waterway structure of dish washer according to any of claims 1-4, characterized in that the waterway mounting plates comprise a first waterway mounting plate (1), a second waterway mounting plate (3) and a third waterway mounting plate (4) from top to bottom, and the water diversion layered waterway (5) is mounted between the first waterway mounting plate (1) and the second waterway mounting plate (3); the upper end and the lower end of the circulating lamellar waterway (6) are propped between the second waterway mounting plate (3) and the third waterway mounting plate (4), and the diversion lamellar waterway (5) and the circulating lamellar waterway (6) are communicated with the water tank (7).

6. The layered waterway structure of dish washer according to claim 5, characterized in that a drainage system for draining water overflowed from the circulating layered waterway (6) out of the waterway structure is further provided on the third waterway mounting plate (4).

7. The layered waterway structure of dish washer according to claim 5, characterized in that the upper and lower ends of the circulating layered waterway (6) are hermetically connected to the second waterway mounting plate (3) and the third waterway mounting plate (4).

8. The layered waterway structure of the dish washer according to claim 5, characterized in that a sprayer base (8) is arranged on the first waterway mounting plate (1), a sprayer is arranged on the sprayer base (8), a spraying pipeline of the sprayer extends into a corresponding diversion layered waterway (5) from the first waterway mounting plate (1), and the spraying pipeline is in sealing connection with the first waterway mounting plate (1); the third waterway mounting plate (4) is also provided with a heater interface (9) and a water pump interface (10), and the circulating lamellar waterway (6) is enclosed outside the heater interface (9) and the water pump interface (10) and extends into the water tank (7).

9. The layered waterway structure of dish washer according to claim 8, characterized in that the first waterway mounting plate (1) and the second waterway mounting plate (3) are respectively and correspondingly provided with water receiving grooves (11) corresponding to the water tank (7), the water receiving grooves (11) are respectively and hermetically connected with the second waterway mounting plate (3) and the third waterway mounting plate (4), and the water receiving grooves (11) are communicated with the water tank (7).

10. A dishwasher, characterized by having a hierarchical waterway structure of the dishwasher of any one of the preceding claims 1-9.