CN213855910U - Jet chassis of cleaning device - Google Patents

Abstract

The utility model provides a belt cleaning device efflux chassis, including chassis body, high pressure water connection, high pressure water waterway pipeline, high pressure water nozzle. The chassis body is provided with a window, the inner wall of the window is provided with an opening, one end of the high-pressure water waterway pipeline is connected with a high-pressure water connector positioned on the outer surface of the bottom plate body, the other end of the high-pressure water waterway pipeline is communicated with the opening on the inner wall of the window, and the high-pressure water nozzle is arranged at the opening and communicated with the high-pressure water waterway pipeline. The jet chassis of the cleaning device of the utility model can be arranged on a high-pressure water cleaning device which generates negative pressure, and pollutants washed away through the window are vacuumized; and the chassis can be disassembled and replaced, and the high-pressure water cleaning equipment is convenient to clean again.

Description

Jet chassis of cleaning device

Technical Field

The utility model relates to an equipment washs clean technical field, concretely relates to belt cleaning device efflux chassis.

Background

For cleaning equipment, most of the current methods utilize water jet of high pressure water or air flow of high pressure air pump to blow strongly to clean the equipment. Taking screen cleaning as an example, the high pressure water cleaning head includes a cavity and several hole for water spraying or high pressure water spray head, when to the screen cleaning of wrapping around on the roller, just need to solve spun water and the collection problem of the pollutant that washes off, if a large amount of water remain at the screen, influence the subsequent drying of screen on the one hand, also can carry the pollutant moreover, lead to clean not thoroughly, the pollutant that removes may produce secondary pollution and influence the use of screen to equipment when wasing clean.

The method is a feasible solution for sucking the sprayed water and the washed pollutants into the chamber in a negative pressure mode, but a large amount of pollutants are sucked in through the negative pressure for a long time, so that the chamber is polluted, the washing water is polluted, and even the water spraying holes or the spray heads are blocked.

In addition, when the silk screens in different states are cleaned, for example, the silk screens wrapped on the roller and in an arc state and the silk screens in a linear motion and in a plane state, the current cleaning equipment cannot be compatible.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a special efflux chassis belt cleaning device in order to solve the shortcoming that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a jet flow chassis of a cleaning device comprises a chassis body, a high-pressure water interface, a high-pressure water waterway pipeline and a high-pressure water nozzle.

The chassis body is provided with a window, the inner wall of the window is provided with an opening, one end of the high-pressure water waterway pipeline is connected with a high-pressure water connector positioned on the outer surface of the bottom plate body, the other end of the high-pressure water waterway pipeline is communicated with the opening on the inner wall of the window, and the high-pressure water nozzle is arranged at the opening and communicated with the high-pressure water waterway pipeline.

In a preferred embodiment, the high-pressure water interface comprises a hollow pipeline extending from the outer surface of the chassis body to the inside of the chassis body, one end of the cylindrical hollow pipeline on the outer surface of the chassis body is a water inlet of the high-pressure water interface, the other end of the cylindrical hollow pipeline is a water outlet, and the water outlet is communicated with one end of the high-pressure water waterway pipeline.

In a preferred embodiment, the high-pressure water waterway pipeline comprises a main pipeline and an auxiliary pipeline arranged in parallel, wherein the inlet of the main pipeline is communicated with the high-pressure water interface, preferably connected with the water outlet, the auxiliary pipeline is communicated with the main pipeline, and the tail end of the auxiliary pipeline is communicated with the opening; the high-pressure water nozzle is communicated with the auxiliary water outlet pipeline and is positioned on the hole wall of the pollutant suction hole.

In a preferred embodiment, the chassis body is provided with an air knife window, which is arranged around the window. More preferably, the chassis body is provided with two air knife windows, the window being located between the two air knife windows.

Preferably, the inner wall of the air knife window may be vertical or inclined.

Preferably, the high-pressure water interface is provided with a high-pressure water filter element, and preferably, the high-pressure water filter element is positioned in a hollow pipeline of the high-pressure water interface.

Preferably, the water inlet of the high-pressure water interface is positioned on the side wall of the chassis.

Preferably, the high-pressure water nozzles may be arranged in one or more rows according to actual use requirements. Preferably, the injection angle and range of the high pressure water nozzle is adjustable, preferably the high pressure water nozzle may be direct or angled.

Preferably, the hole wall of the window may be a plane or an arc surface according to a part of an actual cleaning object, and may be a plane or an inclined surface inclined at a certain angle.

Preferably, the bottom surface of the chassis body is in an upward concave arc shape.

In the above-mentioned content of the present application, the pressure of water under the condition of no external force is normal pressure, the high pressure of the high-pressure water is the pressure of the high-pressure water pump, and is greater than 6.375MPa, and the high pressure of the high-pressure water is the pressure of 0.6MPa-160 MPa.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the cleaning device jet flow chassis of the utility model is arranged on a high-pressure water cleaning device which generates negative pressure, a negative pressure cavity is arranged above the window, the pollutants which are washed away in the cleaning process of the device can be sucked in vacuum, the pollutants in the cleaning process of the cleaning device are directly discharged out of the production link, the effects of not influencing the production process of the device and not generating secondary pollution to the device are achieved, and the cleaning device can clean local cleaning objects which move or are static regardless of planes or cambered surfaces; and the chassis can be dismantled, changed, conveniently clean high pressure water cleaning equipment to make high pressure water cleaning equipment compatibility better.

Drawings

FIG. 1 is a front view of the jet chassis of the cleaning device of the present invention;

FIG. 2 is a schematic view of the bottom structure of the jet chassis of the cleaning device of the present invention;

FIG. 3 is a schematic perspective view of a jet chassis of the cleaning device of the present invention;

illustration of the drawings: the device comprises a chassis body 1, a high-pressure water interface 2, a high-pressure water filter core 3, a high-pressure water waterway pipeline 4, a high-pressure water nozzle 5, an air knife window 6 and a window 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-3, a jet chassis of a cleaning device comprises a chassis body 1, a high-pressure water interface 2, a high-pressure water filter element 3, a high-pressure water waterway pipeline 4, a high-pressure water nozzle 5 and a window 7.

The high-pressure water interface 2 is positioned in the chassis body 1 and is a cylindrical hollow pipeline extending into the chassis body 1, one end of the cylindrical hollow pipeline is a water inlet of the high-pressure water interface 2 and is positioned at a position close to the left side edge of the front of the chassis body 1, the other end of the cylindrical hollow pipeline is a water outlet, and the water outlet is communicated with the high-pressure water waterway pipeline 4. The high-pressure water filter element 3 is positioned in the cylindrical hollow pipeline of the high-pressure water connector 2.

The high-pressure water waterway pipeline 4 is provided with a main pipeline, and the water inlet end of the main pipeline is connected with the water outlet. The main pipeline is connected with a plurality of auxiliary water outlet pipelines in parallel, and the auxiliary water outlet pipelines are arranged along the periphery of the window 7. The high-pressure water nozzle 5 is communicated with the auxiliary water outlet pipeline and is positioned on the opening of the inner wall of the window 7.

Referring to fig. 2, the method for installing the high-pressure water interface 2 and the high-pressure water waterway pipe 4 may be: a first hole is drilled in the front-back direction (laser and other modes can be adopted) to form a high-pressure water interface 2, and the first hole can penetrate through the chassis or not; a second pore channel is drilled in the left-right direction, is communicated with the first pore channel and extends to the periphery of the window 7 to form a main pipeline, and an opening of the main pipeline at the left edge of the chassis is blocked; and third pore channels are drilled in the front and back directions along the window 7, the third pore channels are communicated with the second pore channels to form an auxiliary water outlet pipeline, and the opening of the third pore channels positioned on the edge of the chassis is blocked. The rotary hole on the inner wall of the window 7 is communicated with the third pore passage, and the high-pressure water nozzle 5 is communicated with the auxiliary water outlet pipeline through the rotary hole. The rotary hole can be a threaded hole, and the outer surface of the high-pressure water nozzle 5 is provided with threads which are meshed with the threaded hole.

The high-pressure water nozzles 5 can be arranged in one row or multiple rows according to the actual use requirement, and the spraying angle and the spraying range of the nozzles can be adjusted, and the nozzles can spray directly or obliquely. The inner wall of the window 7 can be a plane or an arc surface according to the local part of the actual cleaning object, and can be set to be a plane or an inclined plane inclined at a certain angle.

At least a part of the bottom surface of the chassis body 1 is designed to be an arc shape which is concave upward or convex downward, or at least a part of the bottom surface is a horizontal plane, the position and the injection angle of the high-pressure water nozzle 5 are changed according to the object, and the window 7 is located in the arc region. Thus, the cleaning device can be used for cleaning arc-shaped nets, for example, when the nets are wrapped on rollers, and can also be used for cleaning by adopting the scheme of the application.

The working principle is as follows: when the chassis works, the chassis is arranged in a cavity connected with negative pressure equipment (such as a vacuum pump), then the high-pressure water interface 2 is communicated with high-pressure water conveying equipment, the high-pressure water nozzle 5 is adjusted according to a cleaning object, high-pressure water is sprayed onto a screen, attachments are washed to be separated from the screen, the negative pressure equipment works to form negative pressure in the cavity, the attachments separated from the screen are sucked into the cavity through the window 7, and the chassis can be detached when the cavity needs to be cleaned. It will be appreciated that the high pressure water jet velocity should be able to overcome the effect of the negative pressure in the chamber, which can be achieved by adjusting the negative pressure and the pressure of the high pressure water. In addition, if high pressure water pipes are arranged in the common cavity, the high pressure water pipes can be directly connected with the high pressure water interface 2 of the jet flow chassis of the cleaning device, but the high pressure water interface 2 can also be independently connected with external high pressure water.

Or, the silk screen parcel and linear motion's on the roller under the condition, the chassis can be changed to this application.

Example 2

Referring to fig. 1-3, a special jet cleaning device includes a chassis housing 1, a high-pressure water interface 2, a high-pressure water filter element 3, a high-pressure water waterway pipeline 4, a high-pressure water nozzle 5, an air knife window 6, and a window 7.

The high-pressure water interface 2 is positioned in the chassis shell 1 and is a cylindrical hollow pipeline extending into the chassis shell 1, one end of the cylindrical hollow pipeline is a water inlet of the high-pressure water interface 2 and is positioned at the position, close to the left edge, of the front surface of the chassis shell 1; the other end is a water outlet which is communicated with a high-pressure water waterway pipeline 4. The high-pressure water filter element 3 is positioned in the cylindrical hollow pipeline of the high-pressure water connector 2.

The high-pressure water waterway pipeline 4 is connected with a plurality of auxiliary water outlet pipelines in parallel. The high-pressure water nozzle 5 is communicated with the auxiliary water outlet pipeline, and the high-pressure water nozzle 5 is arranged on a hole on the inner wall of the window 7.

The number of the air knife windows 6 is two, the two air knife windows are positioned at the left side and the right side of the bottom of the chassis shell 1, and the window 7 is positioned between the two air knife windows 6.

The working principle is as follows: when the chassis works, the chassis is arranged in a cavity connected with negative pressure equipment (such as a vacuum pump), then the high-pressure water interface 2 is communicated with high-pressure water conveying equipment, the spraying angle of the high-pressure water nozzle 5 is adjusted according to a cleaning object, high-pressure water is sprayed onto a screen, attachments are washed to be separated from the screen, the negative pressure equipment works in the cavity to form negative pressure, and the attachments separated from the screen are sucked into the cavity through the window 7. Meanwhile, the air knife window is used for enabling high-pressure air of the air knife to penetrate through, two air knives are formed in front of and behind the window 7, the high-pressure water is blocked by the air knives when being sprayed to the silk screen or a roller wrapped by the silk screen for reflection, the reflected water and pollutants carried by the reflected water are placed to be splashed to other areas, the air knives can be formed by high-pressure air nozzles arranged in a cavity, or the air knife window is provided with the high-pressure air nozzles and connected with a high-pressure air pump, and the air knives can also be formed.

The above detailed description of the embodiments of the present invention is only for exemplary purposes, and the present invention is not limited to the above described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (10)

1. A jet chassis of a cleaning device is characterized by comprising a chassis body, a high-pressure water interface, a high-pressure water waterway pipeline and a high-pressure water nozzle;

the chassis body is provided with a window, the inner wall of the window is provided with an opening, one end of the high-pressure water waterway pipeline is connected with a high-pressure water connector positioned on the outer surface of the bottom plate body, the other end of the high-pressure water waterway pipeline is communicated with the opening on the inner wall of the window, and the high-pressure water nozzle is arranged at the opening and communicated with the high-pressure water waterway pipeline.

2. The cleaning device fluidic chassis of claim 1, wherein the high pressure water interface is provided with a high pressure water filter cartridge.

3. The cleaning device jet chassis according to claim 1 or 2, wherein the high-pressure water port comprises a hollow pipe extending from the outer surface of the chassis body to the inside of the chassis body, one end of the cylindrical hollow pipe on the outer surface of the chassis body is a water inlet of the high-pressure water port, the other end of the cylindrical hollow pipe is a water outlet, and the water outlet is communicated with one end of the high-pressure water waterway pipeline.

4. The cleaning device fluidic chassis of claim 2, wherein the high pressure water filter element is located within a hollow conduit of the high pressure water interface.

5. The cleaning device jet chassis according to claim 1, wherein the high-pressure water waterway pipeline comprises a main pipeline and auxiliary pipes arranged in parallel, wherein the inlet of the main pipeline is communicated with the high-pressure water interface, the auxiliary pipes are communicated with the main pipeline, and the tail ends of the auxiliary pipes are communicated with the openings; the high-pressure water nozzle is communicated with the auxiliary water outlet pipeline and is positioned on the opening of the inner wall of the window.

6. The cleaning device jet tray of claim 1, wherein the tray body is provided with an air knife window disposed around the window.

7. The cleaning device jet tray of claim 6, wherein the tray body is provided with two air knife windows, the window being located between the two air knife windows.

8. The cleaning device jet tray of claim 6, wherein the air knife window inner wall is vertical or inclined.

9. The cleaning device jet chassis of claim 1, wherein the high pressure water nozzles are arranged in one or more rows.

10. The cleaning device fluidic tray of claim 1 wherein the bottom surface of the tray body is concave upward in shape.

Images