CN220942249U - Automatic slag discharging mechanism and cleaning equipment - Google Patents

Abstract

The utility model discloses an automatic slag discharging mechanism and cleaning equipment, which are applied to the cleaning equipment and comprise: the water collecting tank is internally provided with a filter screen, and the opening is provided with a cover plate; one side of the bottom of the water collecting tank is communicated with a residue collecting barrel through a communicating water pipe, and the residue collecting barrel is arranged outside the shell of the cleaning equipment; a cleaning tank is arranged above the cover plate and is communicated with the water collecting tank through a first drain pipe; an electric control valve is arranged on the first drain pipe; a water supply pipe is arranged at one side of the bottom of the water collecting tank; the other side of the bottom of the water collecting tank is communicated with a water supply pipe through a water suction pipe, and a water pump is arranged on the water suction pipe; one side of the cleaning tank is provided with a drainage groove, one end of the drainage groove is communicated with the water collecting tank through a drainage opening, and the other end of the drainage groove is communicated to the upper part of the residue collecting tank; a water level line is arranged in the cleaning tank. The residue collecting barrel is arranged outside the shell of the cleaning equipment, and only the filter screen of the residue collecting barrel is required to be cleaned, and the water collecting tank is not required to be disassembled and cleaned, so that the filter screen is convenient to clean by operators.

Description

Automatic slag discharging mechanism and cleaning equipment

Technical Field

The utility model relates to the technical field of cleaning equipment, in particular to an automatic slag discharging mechanism and cleaning equipment.

Background

The automatic slag discharging system is used in automatic cleaning equipment, and has the operation principle that the slag produced during the cleaning process is discharged into the slag separating filter screen inside the machine body of the cleaning equipment, and then is impacted by high pressure water flow to discharge the slag from the outside of the machine body. The slag separation filter screen in the system is positioned in the inward water tank below the washing tank, and the circulating water pump extracts water from the water collection tank for circulating cleaning. However, in the actual use process, some tiny residues still escape from the filter screen and enter the water collection tank, so that the water suction port of the water pump is blocked. Therefore, it is required to disassemble the water collection tank and clean the water suction filter of the water pump every day after the cleaning apparatus completes the work, which increases the workload of the operator.

Disclosure of utility model

In view of the above, the automatic slag discharging mechanism and the cleaning device provided by the utility model are arranged outside the shell of the cleaning device through the residue collecting barrel, and only the filter screen of the residue collecting barrel is required to be cleaned, and the water collecting tank is not required to be disassembled and cleaned, so that the filter screen is convenient to clean by operators.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

An automatic slag discharging mechanism applied to cleaning equipment, comprising: the water collecting tank is internally provided with a filter screen, and the opening is provided with a cover plate; one side of the bottom of the water collecting tank is communicated with a residue collecting barrel through a communicating water pipe, and the residue collecting barrel is arranged outside the shell of the cleaning equipment; a cleaning tank is arranged above the cover plate and is communicated with the water collecting tank through a first drain pipe; an electric control valve is arranged on the first drain pipe; a water supply pipe is arranged at one side of the bottom of the water collecting tank; the other side of the bottom of the water collecting tank is communicated with the water supply pipe through a water suction pipe, and a water pump is arranged on the water suction pipe; one side of the cleaning tank is provided with a escape groove, one end of the escape groove is communicated with the cleaning tank through an escape opening, and the other end of the escape groove is communicated to the upper part of the residue collecting barrel; a water level line is arranged in the cleaning tank.

Among the above-mentioned technical scheme, install the outside at the cleaning equipment casing through the residue collecting vessel, communicate residue collecting vessel bottom through intercommunication water pipe and header tank, like this, every day operation finishes, only needs the filter screen of clearance residue collecting vessel, need not unpick and wash the header tank.

It is further understood that after the washing tank fills up the washing liquid to residue collecting vessel and water catch bowl, start the water pump, the water pump draws water from the water catch bowl and pours into the washing tank into, the washing liquid flows out through the escape orifice on the water line, the washing liquid will float the residue and flow out the washing tank along with the rivers, flow into the residue collecting vessel that the cleaning equipment casing arranged outside through the escape orifice, residue collecting vessel bottom communicates with the water catch bowl in the cleaning equipment casing through the intercommunication water pipe, the filter screen is arranged to the water catch bowl top, with washing tank bottom exhaust residue separation in the filter screen top, the washing liquid that separates the residue flows into the filter screen below water catch bowl from flowing into.

When the cleaning tank works, every a set period of time, the electric control valve is opened for a short period of time, after part of cleaning liquid and sediment are discharged, the electric control valve is closed again, and the water discharge is based on the fact that the water level line of the cleaning tank does not drop. The discharged cleaning liquid and sediment flow into the upper part of the water collecting tank filter screen, and the cleaning liquid for separating the residues flows into the water collecting tank below the filter screen.

Further understand theory of operation, the circulation filter pump that is connected between washing tank and the water catch bowl starts, and the drinking-water pipe passes through the automatically controlled valve control this moment, flows to the washing tank. After a period of time, a residue collecting barrel filter screen arranged outside the machine body has accumulated some residues, and if the residues are excessive, operators can manually clean the residues.

As a further optimization of the technical scheme, the communicating water pipe is provided with a connector outside the cleaning equipment shell.

In the above technical scheme, a connector can be arranged outside the cleaning equipment shell and used for connecting the communicating water pipe. The advantage of doing so is convenient dismantlement and installation intercommunication water pipe for maintenance and clearance work are more convenient. By tightening or loosening the joint, the connecting water pipe can be easily disconnected or connected for necessary maintenance and cleaning operations. The design of the joint can be adjusted according to actual needs to ensure the tightness and the tightness of the connection so as to prevent leakage or other problems.

As a further optimization of the technical scheme, a slag settling tank is arranged at the bottom of the cleaning tank, a slag discharging hole is formed in the bottom of the slag settling tank, and the slag discharging hole is communicated with the first drain pipe.

According to the technical scheme, the sediment tank at the bottom of the cleaning tank can effectively collect sediment and residues generated in the cleaning process, and prevent the sediment tank from recontaminating the cleaning liquid. Thus, the quality and the cleaning effect of the cleaning liquid can be improved, and the cleaning equipment can remove residual food and stains more thoroughly. By concentrating the sediment and the residue in the sediment tank and communicating with the first drain pipe through the sediment discharge hole, it is possible to avoid that these contaminants directly enter the sewage system. Instead, they can be filtered and collected to reduce the pollution level of the sewage, meeting environmental requirements.

As a further optimization of the technical scheme, the flow escape groove extends to the upper side of the residue collecting barrel through a connecting bent pipe.

In the technical scheme, the residue collecting barrel arranged outside the machine body is bent towards the outer direction of the machine body, so that the effect of guiding water flow out of the machine body is achieved.

As a further optimization of the technical scheme, the relief port and the water level line are at the same height.

In the technical scheme, when the escape opening is at the same height as the water level line, the cleaning liquid in the cleaning tank can automatically flow out when reaching the water level line. This ensures that the sediment and the contaminants in the cleaning liquid can be smoothly discharged, and avoids excessive residues circulating in the cleaning liquid, thereby improving the cleaning effect and the efficacy of the cleaning device. When the water level in the cleaning tank exceeds the water level line, the excessive cleaning liquid can flow out through the escape opening to avoid overflowing. This can prevent the cleaning liquid from overflowing to cause confusion and waste inside and outside the cleaning device.

As further optimization of the technical scheme, a filtering basket is arranged in the residue collecting barrel, and a second drain pipe and a third drain pipe are respectively arranged on the side wall of the residue collecting barrel; the third drain pipe is provided with a switch for draining water in the residue collecting barrel when the cleaning is finished.

Among the above-mentioned technical scheme, through setting up the filter basket in the residue collecting vessel is inside, the lateral wall sets up second drain pipe and third drain pipe respectively to set up the switch on the third drain pipe, can further filter the residue, realize dispersion drainage and nimble drainage control, be convenient for maintain and clearance simultaneously. The improvement of the technical scheme can improve the performance and the flexibility of the automatic slag discharging mechanism, and bring better use experience for users.

As another preferred aspect, the present utility model also provides a cleaning apparatus comprising the automatic slag discharging mechanism as described above.

Compared with the prior art, the utility model has the beneficial effects that: the residue collecting barrel is arranged outside the shell of the cleaning equipment, so that an operator can conveniently clean the filter screen, the water collecting tank is not required to be disassembled and washed, the time is saved, and the workload is reduced; the circulating filter pump between the cleaning tank and the water collecting tank can realize the recycling of cleaning liquid, so that the resource utilization efficiency is improved; the overflow groove and the water pump are matched for use, so that floating residues can flow out of the cleaning tank, and the cleanliness of the cleaning liquid is maintained; part of cleaning liquid and sediment are regularly discharged through an electric control valve, so that the water level of the cleaning tank is kept stable, and the cleaning effect is ensured; the residue collecting barrel arranged outside the machine body can collect residues in a concentrated mode, and is convenient to process and clean.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a top view of the structure of the present utility model.

Reference numerals in the drawings: a cleaning tank 1; a water supply pipe 2; a cover plate 3; a water pump 4; a water suction pipe 5; a water collection tank 6; a filter screen 7; a first drain pipe 8; a communicating water pipe 9; a joint 10; a residue collection tub 11; a filter basket 12; a switch 13; a third drain pipe 14; a second drain pipe 15; an electric control valve 16; bending the pipe 17; a drainage groove 18; an escape orifice 19; a water line 20; a cleaning device housing 21; a slag settling tank 22; slag discharging holes 23.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Referring to fig. 1-2, in a preferred embodiment, an automatic slag discharging mechanism is applied to a cleaning apparatus, and includes: the water collecting tank 6, wherein a filter screen 7 is arranged in the water collecting tank 6, and a cover plate 3 is arranged at the opening; one side of the bottom of the water collecting tank 6 is communicated with a residue collecting barrel 11 through a communicating water pipe 9, and the residue collecting barrel 11 is arranged outside a cleaning equipment shell 21; a cleaning tank 1 is arranged above the cover plate 3, and the cleaning tank 1 is communicated with the water collecting tank 6 through a first drain pipe 8; an electric control valve 16 is arranged on the first drain pipe 8; a water supply pipe 2 is arranged at one side of the bottom of the water collecting tank 6; the other side of the bottom of the water collecting tank 6 is communicated with the water supply pipe 2 through a water suction pipe 5, and a water pump 4 is arranged on the water suction pipe 5; one side of the cleaning tank 1 is provided with an escape groove 18, one end of the escape groove 18 is communicated with the cleaning tank 1 through an escape opening 19, and the other end of the escape groove is communicated to the upper part of the residue collecting barrel 11; the washing tank 1 is provided with a water line 20.

In the concrete implementation process, the residue collecting barrel 11 is arranged outside the cleaning equipment shell 21, the bottom of the residue collecting barrel 11 is communicated with the water collecting tank through the communicating water pipe 9, and therefore, after the operation is finished every day, a filter screen of the residue collecting barrel 11 is cleaned, and the water collecting tank does not need to be disassembled and cleaned.

It is further understood that when the cleaning tank 1 is filled with cleaning liquid into the residue collection tub 11 and the water collection tub 6, the water pump 4 is started, the water pump 4 pumps water from the water collection tub 6 into the cleaning tank 1, the cleaning liquid flows out of the cleaning tank 1 through the overflow port 19 on the water line 20, the cleaning liquid flows floating residues out of the cleaning tank 1 along with water flow, the floating residues flow into the residue collection tub 11 arranged outside the cleaning device housing 21 through the overflow port 18, the bottom of the residue collection tub 11 is communicated with the water collection tub 6 in the cleaning device housing 21 through the communicating water pipe 9, the filter screen 7 is arranged above the water collection tub 6, the residue discharged from the bottom of the cleaning tank 1 is blocked above the filter screen 7, and the cleaning liquid for blocking the residues flows into the water collection tub 6 below the filter screen 7.

When the cleaning tank 1 works, every a set period of time, the electric control valve is opened for a short period of time, after part of cleaning liquid and sediment are discharged, the electric control valve is closed again, and the water discharge is based on the fact that the water level line 20 of the cleaning tank 1 does not drop. The discharged cleaning liquid and sediment flow into the upper part of the filter screen 7 of the water collecting tank 6, and the cleaning liquid for separating the residues flows into the water collecting tank 6 below the filter screen 7.

Further understanding the theory of operation, the circulation filtration pump that is connected between washing tank 1 and water catch bowl 6 starts, and the drinking-water pipe 5 is controlled through the automatically controlled valve this moment, flows to washing tank 1. After a while, the filter screen 7 of the residue collecting tank 11 arranged outside the machine body has accumulated some residues, and if the residues are excessive, the operator performs manual cleaning.

In the present embodiment, the water communication pipe 9 is provided with a joint 10 outside the cleaning apparatus housing 21.

In a specific implementation, the connector 10 may be disposed outside the cleaning apparatus housing 21 and used for connecting the communicating water pipe 9. The advantage of doing so is that the communicating water pipe 9 is convenient to detach and install, so that maintenance and cleaning work are more convenient. The connecting water pipe 9 can be easily disconnected or connected by tightening or loosening the joint 10, so that necessary maintenance and cleaning operations can be performed. The design of the joint 10 can be adjusted according to the actual need to ensure the tightness and tightness of the connection to prevent leakage or other problems.

In this embodiment, a slag settling tank 22 is disposed at the bottom of the cleaning tank 1, a slag discharging hole 23 is formed at the bottom of the slag settling tank 22, and the slag discharging hole 23 is communicated with the first drain pipe 8.

In the specific implementation process, the sediment tank 22 at the bottom of the cleaning tank 1 can effectively collect sediment and residues generated in the cleaning process, and prevent the sediment and residues from recontaminating the cleaning liquid. Thus, the quality and the cleaning effect of the cleaning liquid can be improved, and the cleaning equipment can remove residual food and stains more thoroughly. By concentrating the sediment and residue in the sediment tank 22 and communicating with the first drain pipe 8 through the sediment discharge hole 23, it is possible to avoid that these contaminants directly enter the sewage system. Instead, they can be filtered and collected to reduce the pollution level of the sewage, meeting environmental requirements.

In this embodiment, the escape canal 18 extends above the debris collection bowl 11 through a connecting elbow 17.

In the concrete implementation process, the residue collecting barrel 11 arranged outside the machine body is bent towards the outer direction of the machine body by the bending pipe 17, so that the water flow is guided out of the machine body.

In this embodiment, the relief opening 19 is at the same level as the water line 20.

In the specific implementation process, when the escape opening 19 is at the same height as the water level line 20, the cleaning solution in the cleaning tank 1 can automatically flow out when reaching the water level line 20. This ensures that the sediment and the contaminants in the cleaning liquid can be smoothly discharged, and avoids excessive residues circulating in the cleaning liquid, thereby improving the cleaning effect and the efficacy of the cleaning device. When the water level in the cleaning tank 1 exceeds the water level line 20 when the escape opening 19 is at the same height as the water level line 20, excessive cleaning liquid can flow out through the escape opening 19 to avoid overflowing. This can prevent the cleaning liquid from overflowing to cause confusion and waste inside and outside the cleaning device.

In the present embodiment, the residue collecting tank 11 is provided with a filtering basket 12 inside, and the side walls are respectively provided with a second drain pipe 15 and a third drain pipe 14; the third drain pipe 14 is provided with a switch 13 for draining the water in the residue collecting tank when the cleaning is finished.

In the specific implementation process, the filter basket 12 is arranged in the residue collecting barrel 11, the second drain pipe 15 and the third drain pipe 14 are respectively arranged on the side walls, and the switch 13 is arranged on the third drain pipe 14, so that water in the residue collecting barrel can be emptied when the cleaning is finished, and the maintenance and cleaning are convenient. The improvement of the technical scheme can improve the performance and the flexibility of the automatic slag discharging mechanism, and bring better use experience for users.

As another preferred aspect, the present utility model also provides a cleaning apparatus comprising the automatic slag discharging mechanism as described above.

In the description of the present utility model, it should be understood that the terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

While the utility model has been described in conjunction with the specific embodiments above, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, all such alternatives, modifications, and variations are included within the spirit and scope of the following claims.

Claims (7)

1. An automatic slag discharging mechanism applied to cleaning equipment, which is characterized by comprising: the water collecting tank (6), wherein a filter screen (7) is arranged in the water collecting tank (6), and a cover plate (3) is arranged at the opening; one side of the bottom of the water collecting tank (6) is communicated with a residue collecting barrel (11) through a communicating water pipe (9), and the residue collecting barrel (11) is arranged outside a cleaning equipment shell (21); a cleaning tank (1) is arranged above the cover plate (3), and the cleaning tank (1) is communicated with the water collecting tank (6) through a first water drain pipe (8); an electric control valve (16) is arranged on the first drain pipe (8); a water supply pipe (2) is arranged at one side of the bottom of the water collecting tank (6); the other side of the bottom of the water collecting tank (6) is communicated with the water supply pipe (2) through a water suction pipe (5), and a water pump (4) is arranged on the water suction pipe (5); one side of the cleaning tank (1) is provided with a escape groove (18), one end of the escape groove (18) is communicated with the cleaning tank (1) through an escape opening (19), and the other end of the escape groove is communicated to the upper part of the residue collecting barrel (11); a water level line (20) is arranged in the cleaning tank (1).

2. The automatic slag discharging mechanism according to claim 1, characterized in that the communicating water pipe (9) is provided with a joint (10) outside the cleaning equipment housing (21).

3. The automatic slag discharging mechanism according to claim 1, wherein a slag settling tank (22) is arranged at the bottom of the cleaning tank (1), a slag discharging hole (23) is formed at the bottom of the slag settling tank (22), and the slag discharging hole (23) is communicated with the first water discharging pipe (8).

4. The automatic slag discharging mechanism as claimed in claim 1, wherein said flow escape slot (18) extends above said slag collection bath (11) through a connecting elbow (17).

5. The automatic slag extractor according to claim 1, characterized in that said escape orifice (19) is at the same level as said water line (20).

6. The automatic slag discharging mechanism according to claim 1, wherein a filtering basket (12) is arranged inside the slag collecting bucket (11), and a second drain pipe (15) and a third drain pipe (14) are respectively arranged on the side walls; the third drain pipe (14) is provided with a switch (13).

7. A cleaning apparatus comprising the automatic slag discharging mechanism as claimed in any one of claims 1 to 6.