CN218223954U - Cleaning system - Google Patents

Abstract

The present disclosure provides a cleaning system, the cleaning system comprising: the cleaning machine comprises a shell, and a conveying mechanism and a cleaning mechanism which are arranged in the shell, wherein the conveying mechanism is used for conveying glass from a glass inlet of the shell to a glass outlet of the shell, the cleaning mechanism is used for cleaning the glass, a filtering cavity with an upward opening and a guide inclined plate which surrounds the edge of the filtering cavity and extends outwards and upwards in an inclined manner are arranged in the shell, a filtering piece is arranged in the filtering cavity, and a first water outlet communicated with the bottom end of the filtering cavity is arranged on the outer wall of the shell; and the water supply unit comprises a box body and a water pump, a first water inlet of the box body is communicated with the first drainage port through a first communicating pipe, and a first water outlet of the box body is communicated with an inlet of the cleaning mechanism through the water pump. The cleaning system is convenient for collecting and cleaning dirt after glass cleaning or fragments after glass breaking, and is high in cleaning efficiency.

Description

Cleaning system

Technical Field

The disclosure relates to the technical field of glass cleaning, in particular to a cleaning system.

Background

At present, glass for the photoelectric display is processed the back, need wash glass and remove the pollutant on surface, need pass through the cleaning unit of a plurality of different grade types when wasing glass, the condition that can produce the fragmentation often in the cleaning process to glass, because the cleaning machine inner space is narrow and small, the fragment is difficult to the clearance, and because the cleaning unit bottom is planar design, the water current non-directional flow, the contaminated area of fragment just becomes very big, even use a large amount of clear water all be difficult for the sanitization, need demolish the mechanism of unit inside and just can clear up, the cleaning process is loaded down with trivial details, waste time and energy, low efficiency.

SUMMERY OF THE UTILITY MODEL

The object of the present disclosure is to provide a cleaning system, which is convenient for collecting and cleaning dirt after cleaning glass or broken glass fragments, and has high cleaning efficiency, so as to at least partially solve the above technical problems.

In order to achieve the above object, the present disclosure provides a washing system including: the cleaning machine comprises a shell, and a conveying mechanism and a cleaning mechanism which are arranged in the shell, wherein the conveying mechanism is used for conveying glass from a glass inlet of the shell to a glass outlet of the shell, the cleaning mechanism is used for cleaning the glass, a filtering cavity with an upward opening and a guide inclined plate which surrounds the edge of the filtering cavity and extends outwards and upwards in an inclined manner are arranged in the shell, a filtering piece is arranged in the filtering cavity, and a first water drainage port communicated with the bottom end of the filtering cavity is arranged on the outer wall of the shell; and the water supply unit comprises a box body and a water pump, a first water inlet of the box body is communicated with the first water discharge port through a first communication pipe, and a first water outlet of the box body is communicated with an inlet of the cleaning mechanism through the water pump.

Optionally, the housing has a first inner wall surface and a second inner wall surface opposite to each other in the conveying direction of the conveying mechanism, and a third inner wall surface and a fourth inner wall surface opposite to each other in the first direction perpendicular to the conveying direction, the filter cavity is located at a corner between the first inner wall surface and the third inner wall surface, an included angle between a first side edge of the guide inclined plate connected to the first inner wall surface and a horizontal plane is 4 to 6 degrees, an included angle between a second side edge of the inclined plate connected to the third inner wall surface and the horizontal plane is 1 to 3 degrees, and an included angle between a third side edge of the inclined plate connected to the second inner wall surface and the horizontal plane is 7 to 10 degrees.

Optionally, be provided with on the outer wall of casing with filter the trompil of cavity intercommunication, filter piece include the baffle with link firmly in the filter frame of the internal face of baffle, filter the frame and have the collection space, filter the frame be used for certainly the trompil extends to in the filter cavity, the baffle is used for sealedly covering and locates the trompil, just filter with casing detachably connects.

Optionally, the filter frame comprises a bottom plate and a side plate arranged around a part of the periphery of the bottom plate, the side plate and the baffle plate jointly enclose the collecting space, and the bottom plate is configured as a filter screen.

Optionally, the cleaning system further comprises a controller and a detection switch, the detection switch is arranged above the conveying mechanism and used for detecting whether the glass is broken, and the controller is in signal connection with the detection switch, the conveying mechanism and the water pump respectively.

Optionally, the number of the detection switches is multiple, the multiple detection switches are arranged at intervals along a first direction perpendicular to a conveying direction of the conveying mechanism, and the conveying direction and the first direction are both parallel to a horizontal plane.

Optionally, a drain pipe is communicated with the first communication pipe, a first control valve is arranged on the drain pipe, a second control valve located at the downstream of the connection position of the first communication pipe and the drain pipe is arranged on the first communication pipe, and the first control valve and the second control valve are respectively in signal connection with the controller.

Optionally, a liquid level sensor in signal connection with the controller is arranged on the box body.

Optionally, a water replenishing port and a water replenishing pipeline located above the water replenishing port are arranged on the top wall surface of the box body, and a third control valve in signal connection with the controller is arranged on the water replenishing pipeline.

Optionally, the top wall surface of the housing is provided with an opening located above the conveying mechanism, and a cover plate detachably covering the opening.

Through the technical scheme, namely the cleaning system provided by the disclosure cleans glass through the conveying mechanism and the cleaning mechanism which are arranged in the shell, the filtering cavity arranged in the shell and the guide inclined plane arranged around the filtering cavity can guide water flow to flow directionally, a small amount of water can flush dirt generated in the cleaning process or broken slag generated by glass fragments into the filtering cavity, and the filtering piece arranged in the filtering cavity can filter and collect the dirt and fragment residues, so that the problems that in the related art, because the bottom of the cleaning unit is designed in a plane, the dirt and the residues are easy to accumulate and are difficult to clean are solved. In addition, the first water outlet of filtering cavity bottom in the cleaning machine is connected with first communicating pipe, and first communicating pipe is connected with the box of water supply unit, and the box passes through the water pump again and connects the cleaning machine, has realized the inner loop of rivers, can block outside dust and get into cleaning system, effectively prevents that the water from being polluted by the dust.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure, but do not constitute a limitation of the disclosure. In the drawings:

FIG. 1 is a schematic block diagram of a configuration of a cleaning system provided in an exemplary embodiment of the present disclosure;

FIG. 2 is a schematic block diagram of a side view configuration of a cleaning machine provided in an exemplary embodiment of the present disclosure;

FIG. 3 is a schematic illustration of the structure of a filter element provided in an exemplary embodiment of the present disclosure;

fig. 4 is a schematic block diagram of the structure of a cleaning mechanism provided in an exemplary embodiment of the present disclosure.

Description of the reference numerals

1-a cleaning machine; 11-a housing; 111-a filtration chamber; 1111-opening holes; 112-a guide sloping plate; 113-a filter element; 1131-baffle; 1132-a filter frame; 1133-bottom plate; 1134, side plate; 114-a first drain; 115-a first inner wall surface; 116-a second inner wall surface; 117 — third inner wall face; 118-a fourth interior wall surface; 119-a collecting space; 12-a conveying mechanism; 121-glass inlet; 122-glass outlet; 13-a cleaning mechanism; 1301-a first high pressure cleaning unit; 1302-disc brush cleaning unit; 1303-rolling brush cleaning unit; 1304-an ultrasonic cleaning unit; 1305-a two-fluid wash unit; 1306-a second high pressure cleaning unit; 1307-dry output unit; 15-detection switch; 16-a cover plate; 2-a water supply unit; 21-a box body; 211-a first water inlet; 212-first water outlet; 213-a water replenishing port; 214-water replenishing pipeline; 215-a third control valve; 216-a liquid level sensor; 22-a water pump; 3-a first communicating pipe; 31-a drain pipe; 32-a first control valve; 33-a second control valve; 4-glass.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, for convenience of description, a three-coordinate system, i.e., an XYZ coordinate system illustrated in fig. 1 is defined for the washing machine, in which a Z direction is a vertical direction and a direction indicated by a Z direction arrow is an upper direction, whereas a direction indicated by a Y arrow is a lower direction, and an X direction is a first direction, and in the case where no opposite description is made, the use of an orientation word such as "inside and outside" refers to inside and outside with respect to a structure or an outline of a component itself, and the use of terms such as "first and second" and the like are used for distinguishing one element from another element, and are not sequential and important. In addition, in the description with reference to the drawings, the same reference numerals in different drawings denote the same elements.

The inventor finds that after deep processing is carried out on glass for photoelectric display, the glass needs to be put into a cleaning machine for comprehensive cleaning, dust and stains on the surface of the glass are removed, the glass is larger and thinner along with the size of the glass, the situation of glass fragment is easy to occur in the process of cleaning the glass, meanwhile, due to the fact that the internal structure of the existing cleaning machine is very complicated, various control structures are installed inside a cleaning system, the internal space is very narrow, if the fragment situation occurs, the fragment is cleaned very complicated, due to the fact that the bottom of the existing cleaning machine is in a plane design, water flow direction does not flow directionally, the fragment cannot be discharged even if a large amount of clear water is used for cleaning, manual cleaning is carried out after a mechanism inside a cleaning machine unit needs to be detached, the cleaning process is very complicated, not only is the production capacity reduced, but also the quality of the cleaned glass is affected.

Based on this, the present disclosure provides a cleaning system, referring to fig. 1 to 4, the cleaning system includes a cleaning machine 1, including a housing 11, and a conveying mechanism 12 and a cleaning mechanism 13 disposed in the housing 11, the conveying mechanism 12 is used for conveying glass 4 from a glass inlet 121 of the housing 11 to a glass outlet 122 of the housing 11, the cleaning mechanism 13 is used for cleaning the glass 4, a filtering cavity 111 with an upward opening and a guiding inclined plate 112 extending obliquely outward and upward around an edge of the filtering cavity 111 are disposed in the housing 11, a filtering element 113 is disposed in the filtering cavity 111, and a first water outlet 114 communicated with a bottom end of the filtering cavity 111 is disposed on an outer wall of the housing 11; and the water supply unit 2 comprises a box body 21 and a water pump 22, a first water inlet 211 of the box body 21 is communicated with the first water outlet 114 through a first communication pipe 3, and a first water outlet 212 of the box body 21 is communicated with an inlet of the cleaning mechanism 13 through the water pump 22.

Through the technical scheme, the filter cavity 111 arranged in the shell 11 can collect and filter the broken slag generated by glass fragments and the dirt generated in the glass cleaning process, so that the broken slag is stored in the filter cavity 111, the cleanness of a water path is effectively protected, the guide inclined plate 112 has a certain inclination, when water flows through, a small amount of water can flush the broken slag generated by the dirt or the glass fragments into the filter cavity 111, and therefore the problems that in the related art, because the bottom of the cleaning unit is designed in a plane, the dirt and the residue are easy to accumulate and difficult to clean are avoided. The first water inlet 211 of the box body 21 is communicated with the first water outlet 114 through the first communication pipe 3, and the first water outlet 212 of the box body 21 is communicated with the inlet of the cleaning mechanism 13 through the water pump 22, so that the internal circulation of water flow is realized.

In some specific embodiments, referring to fig. 1, the housing 11 has a first inner wall surface 115 and a second inner wall surface 116 opposite to each other along the conveying direction of the conveying mechanism 12, and a third inner wall surface 117 and a fourth inner wall surface 118 opposite to each other along the first direction perpendicular to the conveying direction, the filter cavity 111 is located at a corner between the first inner wall surface 115 and the third inner wall surface 117, a first side edge of the guide inclined plate 112 connected to the first inner wall surface 115 forms an angle of 4 to 6 degrees with the horizontal plane, a second side edge of the guide inclined plate 112 connected to the third inner wall surface 117 forms an angle of 1 to 3 degrees with the horizontal plane, and a third side edge of the guide inclined plate 112 connected to the second inner wall surface 116 forms an angle of 7 to 10 degrees with the horizontal plane. Referring to fig. 1, an included angle between a first side edge of the inclined guide plate 112 connected to the first inner wall surface 115 and a horizontal plane is an angle a shown in fig. 1, an included angle between a second side edge of the inclined guide plate 112 connected to the third inner wall surface 117 and the horizontal plane is an angle b shown in fig. 1, an included angle between a third side edge of the inclined guide plate 112 connected to the second inner wall surface 116 and the horizontal plane is an angle c shown in fig. 1, an angle a is 4-6 degrees, an angle b is 1-3 degrees, and an angle c is 7-10 degrees, in such an inclined manner, different side edges of the inclined guide plate 112 and a horizontal direction form different included angles, and the flushing water flow can flow into the filter chamber 111 along the inclined angle of the inclined guide plate 112, for example, a side where the third side edge of the inclined guide plate 112 is located is higher than a side where the first side edge is located, and a side where a fourth side edge of the inclined guide plate 112 connected to the fourth inner wall surface 118 is located is higher than a side where the second side edge is located, so that the flushing water flow, the dirt and the debris can be guided into the filter chamber 111. In some embodiments, an angle a between a first side of the inclined guide plate 112 connected to the first inner wall surface 115 and the horizontal plane may be 5 degrees, an angle between a second side of the inclined guide plate 112 connected to the third inner wall surface 117 and the horizontal plane may be 2 degrees, and an angle between a third side of the inclined guide plate 112 connected to the second inner wall surface 116 and the horizontal plane may be 7 degrees.

In some embodiments, referring to fig. 1 to 3, an opening 1111 is formed on an outer wall of the housing 11 to communicate with the filter chamber 111, the filter member 113 includes a baffle 1131 and a filter frame 1132 attached to an inner wall surface of the baffle 1131, the filter frame 1132 has a collecting space 119, the filter frame 1132 extends from the opening 1111 to the filter chamber 111, the baffle 1131 is configured to hermetically cover the opening 1111, and the filter member 113 is detachably connected to the housing 11. By this connection, the opening 1111 is formed to allow the filter member 113 to be installed in the filter chamber 111, the filter member 113 is connected to the lowermost end of the inclined guide plate to help guide water, dirt, and glass debris generated by breaking the glass toward the filter member 113, and the filter frame 1132 can block most of the dirt and glass debris and collect the dirt and glass debris in the collecting space 119 of the filter frame 1132. The baffle 1131 can install the filtering element 113 on the housing 11 in a sealing manner, and can prevent external dust from entering the housing 11, in the specific embodiment of the present disclosure, a sealing strip is attached to one side of the baffle 1131 close to the housing 11, the sealing strip is used for enhancing the sealing effect between the filtering element 113 and the housing 11, and a connecting element is disposed on the filtering element 113, the connecting element can be used for fixing the filtering element 113 on the filtering cavity 111, the connecting element can be configured as a connecting element in any form, in the specific embodiment of the present disclosure, a telescopic buckle fixed on the housing 11 is disposed near the outer surface of the housing 11 close to the filtering cavity 111, a hook for hanging the buckle is disposed on one side of the baffle 1131 away from the housing 11, when fixing the filtering element 113, the filtering element 113 is firstly pushed into the filtering cavity 111, the sealing strip on the baffle 1131 is closely attached to the housing 11, the telescopic buckle is pulled out, the telescopic buckle is hung on the telescopic buckle, and the telescopic buckle is hung on the hook, so that the telescopic buckle can fix the filtering element 113, preferably, two telescopic buckles disposed on the housing 11 respectively on the upper and lower sides of the baffle 1131, and the corresponding hook are tightly press the sealing strip to prevent the sealing strip, and prevent the dust from entering the housing 11, and prevent the dust from leaking. In another embodiment, the baffle 1131 may also be connected to the housing 11 by a latch type quick clamp, for example, a draw hook seat of the latch type quick clamp is installed on the housing 11, and a lock catch of the latch type quick clamp is installed on the baffle 1131, so that the baffle 1131 is locked on the housing 11 by the quick matching of the draw hook on the draw hook seat and the lock catch. In other embodiments, the baffle 1131 may also be attached to the housing 11 using, for example, a bolted fastener connection. The present disclosure is not limited thereto.

In some specific embodiments, as shown with reference to fig. 1-3, filter frame 1132 includes a bottom plate 1133 and a side plate 1134 disposed around a portion of the periphery of bottom plate 1133, where side plate 1134 and baffle 1131 together enclose collection space 119, and bottom plate 1133 is configured as a screen. In this manner, the bottom plate 1133 is configured as a screen to perform a filtering function, and the side plate 1134 and the baffle 1131 enclose the filter frame 1132 to form the collection space 119.

In some specific embodiments, referring to fig. 1, 2 and 4, the cleaning system further includes a controller and a detection switch 15, the detection switch 15 is disposed above the conveying mechanism 12 for detecting whether the glass 4 is broken, and the controller is in signal connection with the detection switch 15, the conveying mechanism 12 and the water pump 22 respectively. Through this kind of connected mode, detect switch 15 can detect whether broken to glass, and play warning and transmission emergency stop signal effect, after the broken circumstances appears in glass, detect switch 15 will extinguish, can be with the signal transmission to the controller of fragment this moment, and give fragment alarm signal, alarm signal converts emergency stop signal transmission to conveying mechanism 12 and water pump 22 through the controller, conveying mechanism 12 and water pump 22 stop operation this moment, treat that the fragment clearance finishes the back resets to detect switch 15, detect switch 15 is the normal light state after resetting, detect switch 15 transmits the reset signal of normal light state for the controller, the rethread controller transmits reset signal for conveying mechanism 12 and water pump 22, conveying mechanism begins normal operating this moment. The controller may be, for example, a PLC controller or a single chip microcomputer, which is not particularly limited in this disclosure.

In some specific embodiments, referring to fig. 1 and 2, the number of the detection switches 15 is plural, and the plural detection switches 15 are arranged at intervals in a first direction perpendicular to the conveying direction of the conveying mechanism 12, and both the conveying direction and the first direction are parallel to a horizontal plane. In this way, the detection switches 15 are arranged at intervals to detect a plurality of positions of the glass, and when a fragment occurs, the detection switch 15 closest to the fragment position correspondingly transmits a signal and turns off, so that a worker can conveniently confirm the fragment position.

In some embodiments, the detection switch 15 may be, for example, an infrared detection switch, and during the operation of the cleaning system, a certain temperature difference exists between the temperature of the chassis and the temperature of the glass, and in a normal operation state, the infrared detection switch irradiates the glass 4 through infrared rays emitted by the sensor, and when the glass 4 is not broken, the infrared rays always irradiate the glass; when the glass 4 is broken, the infrared ray irradiated by the detection switch 15 closest to the broken position irradiates the case due to the broken glass, the temperature changes at the moment, the changed signal is transmitted to the sensor, and the sensor instructs the detection switch 15 to extinguish the lamp body on the detection switch 15.

In an alternative embodiment, the detection switch 15 may also be, for example, a laser distance measuring sensor, when the glass 4 is not broken, the distance between the glass 4 and the light detected by the laser distance measuring sensor is not changed, and when the glass 4 is broken, the light emitted by the laser distance measuring sensor irradiates the inside of the machine box due to the broken glass, so that the distance value detected by the laser distance measuring sensor changes, and at this time, a signal can be fed back to the controller to prompt that the glass is broken.

In some specific embodiments, referring to fig. 1, a drain pipe 31 is communicated with the first communication pipe 3, a first control valve 32 is arranged on the drain pipe 31, a second control valve 33 is arranged on the first communication pipe 3 and is located downstream of the connection position of the first communication pipe and the drain pipe, and the first control valve 32 and the second control valve 33 are respectively connected with the controller through signals. Through the connection mode, the first control valve 32 is used for guiding or preventing water flowing through the filtering cavity 111 from flowing to the outside, the second control valve 33 is used for guiding or preventing water flowing through the filtering cavity 111 from flowing into the box body 21, in a normal working state, the first control valve 32 is in a closed state, the second control valve 33 is in an open state, at the moment, water can flow into the box body 21 through the first communication pipe 3, after the glass is broken, an emergency stop signal transmitted to the controller by the detection switch 15 can be converted into state conversion signals output to the first control valve 32 and the second control valve 33 through the controller, and after the signals are transmitted to the first control valve 32 and the second control valve 33, the first control valve 32 is changed from the closed state in the normal working state to the open state, the second control valve 33 is changed from the open state under the normal working state to the closed state, at this time, the water flowing into the filtering cavity 111 does not flow into the tank body 21 through the second control valve 33, the water is discharged out of the cleaning system from the first control valve 32 together with the part of the fine glass fragments passing through the filtering cavity 111, in this way, the fragments which cannot be filtered by the filtering cavity 111 can be prevented from entering the tank body 21 through the first communication pipe 3, so that the pipeline and the water tank are polluted, after the fragment processing is finished, the reset signal transmitted to the controller through the detection switch 15 is converted into the state-changing signal output to the first control valve 32 and the second control valve 33 through the controller, at this time, the first control valve 32 is restored to the closed state under the normal working state, and the second control valve 33 is restored to the open state under the normal working state. Through this kind of mode, can avoid glass broken back, the piece that passes filtration cavity 111 gets into in the box 21, and then can avoid polluting water and relevant pipeline in the box 21, and then can improve glass cleaning's efficiency and save water cost etc..

In some specific embodiments, referring to fig. 1, a liquid level sensor 216 connected to the controller is disposed on the tank 21, the liquid level sensor 216 may be disposed inside the tank 21, and three sensors are disposed along the tank 21 from top to bottom in the vertical direction according to the height of the liquid level: a high-level sensor, a middle-level sensor and a low-level sensor. When the water level of the box body 21 is higher than the high level sensor, the high level sensor transmits a stop signal to the controller, the external water supply device stops supplying water into the box body 21 from the outside, at the moment, the shell 11 and the water in the box body 21 are recycled, when the water level of the box body 21 is between the middle level sensor and the low level sensor, the low level sensor transmits a start signal to the controller, the external water supply device supplies water into the box body 21, when the water level of the box body 21 is lower than the low level sensor, the low level sensor transmits an alarm signal to the controller, at the moment, the whole system stops operating except the external water supply device, the water supply device supplies water to the box body 21, when the water level of the box body 21 reaches the height of the middle level sensor or the high level sensor, the middle level sensor or the high level sensor transmits the stop signal and a reset signal to the controller, at the moment, the external water supply device stops supplying water to the box body 21, and the whole system returns to a normal working state.

In some specific embodiments, referring to fig. 1, a top wall of the box 21 is provided with a water replenishing port 213 and a water replenishing pipeline 214 located above the water replenishing port 213, and the water replenishing pipeline 214 is provided with a third control valve 215 connected with the controller through signals. In this way, the third control valve 215 is in signal connection with the controller, when the water level in the tank 21 is between the middle position sensor and the low position sensor or below the low position sensor, the signal transmitted from the sensor is also converted into a transition signal by the controller and transmitted to the third control valve 215, at this time, the third control valve 215 is opened, and the water flow flows into the tank 21 from the outside through the water replenishing pipeline 214, so as to achieve the purpose of water supply.

In some embodiments, referring to fig. 1, the top wall surface of the housing 11 is provided with an opening above the conveying mechanism 12, and a cover plate 16 detachably covering the opening. Through the connection mode, when the glass is broken, the whole system stops running, at the moment, workers need to check and process the residual glass residues of the conveying mechanism 12 and the cleaning mechanism 13 in the shell 11, and the cover plate 16 detachably covering the opening can visually see the condition inside the cleaning machine after being detached, so that the workers can conveniently break the glass.

In some embodiments, referring to fig. 2, the conveying mechanism 12 includes a plurality of idlers arranged side by side along the conveying direction of the conveying mechanism 12, each of the idlers extends along a first direction, and a plurality of idlers for placing and carrying the glass 4 are provided on the idlers at intervals along the first direction (corresponding to the axial direction of the idlers) to realize the transportation of the glass 4 by the rotation of the idlers. The carrier roller can be a power roller, for example, so that the roller can rotate in a self-driving manner through the power roller, and further the glass 4 can be conveyed. Or, every two adjacent carrier rollers may be connected through transmission, such as a synchronous belt or a gear, so that any one of the carrier rollers may be driven to rotate by, for example, a motor, and then the remaining carrier rollers may be driven to rotate by the synchronous belt or the gear, so as to transport the glass 4. The present disclosure is not limited thereto.

In addition, conveying mechanism 12 still includes a plurality of compression rollers that set up on a plurality of bearing rollers, and a plurality of compression rollers all extend along the first direction and arrange along conveying mechanism's direction of delivery interval ground, are provided with a plurality of pinch rollers that extend interval ground along self axis direction on the compression roller, and glass 4 is located between riding wheel and the pinch roller to realize the stable transport to glass 4 through the cooperation of riding wheel and pinch roller. Wherein the pressure roller may be, for example, a powered roller, so as to achieve rotation of the roller itself by means of self-driving of the powered roller. Or, every two adjacent compression rollers may be connected through a transmission such as a synchronous belt or a gear, so that any one of the compression rollers may be driven to rotate by, for example, a motor, and then the remaining compression rollers may be driven to rotate by the synchronous belt or the gear, so as to transport the glass 4. The present disclosure is not limited thereto.

In some embodiments, referring to fig. 4, the cleaning mechanism 13 may include a plurality of cleaning units arranged in sequence along the conveying direction of the conveying mechanism 12, each cleaning unit may perform a cleaning operation of various processes on the glass, and the conveying mechanism 12 may penetrate through the plurality of cleaning units along the conveying direction to convey the glass 4 through each cleaning unit in sequence. For example, in the present disclosure, the plurality of cleaning units may include a first high pressure cleaning unit 1301, a disc brush cleaning unit 1302, a rolling brush cleaning unit 1303, an ultrasonic cleaning unit 1304, a two-fluid cleaning unit 1305, a second high pressure cleaning unit 1306, and a drying output unit 1307, which are sequentially arranged from the glass inlet 121 toward the glass outlet 122, wherein the first high pressure cleaning unit 1301 and the second high pressure cleaning unit 1306 may drive a plunger pump by a motor to form a high pressure water flow, and perform a washing function on the glass 4 by a trigger spray gun, the disc brush cleaning unit 1302 may drive a brush to operate by a transmission manner that the motor drives a gear, a belt, or a shaft, and perform a cleaning function on the glass 4 by operation of the brush, and the rolling brush cleaning unit 1303 may drive the rolling brush to operate by a transmission manner that the motor drives the gear, the belt, or the shaft, the glass 4 is cleaned by the operation of the rolling brush, the ultrasonic cleaning unit 1304 can convert the sound energy of the power ultrasonic frequency source into mechanical vibration by the transducer, the ultrasonic wave is radiated to the cleaning liquid in the groove by the cleaning groove wall, so that bubbles in the groove can keep vibrating under the action of the sound wave, dust adsorbed by dirt and the surface of a cleaning part is damaged, and the glass 4 is cleaned, the two-fluid cleaning unit 1305 can spray the mixed liquid on the surface of the glass 4 by the supersonic nozzle after mixing nitrogen and water, the dust attached to the glass 4 can be dissolved and peeled, and the drying output unit 1307 can heat part of a machine body by a dryer, so that the moisture attached to the surface of the glass 4 is evaporated, and the glass is dried and cleaned.

The present disclosure illustratively describes the operation of the washing system, which may include, for example, the steps of:

under the condition that normal work is carried out and glass 4 is not broken, the filter element 113 is placed into the filter cavity 111, the telescopic buckle connected to the shell 11 is pulled out, the hook on the baffle 1131 is hung, the filter element 113 is fixed on the shell 11, the glass 4 is conveyed to the conveying mechanism 12 positioned in the shell 11 through the glass inlet 121 by mechanisms such as an external conveying belt or a conveying roller, at the moment, the glass 4 is conveyed by the conveying mechanism 12 to be sequentially cleaned and dried in various modes through various cleaning units, water flows into the filter cavity 111 along the guide inclined plate 112 and then flows into the first communication pipe 3 through the first water outlet 114 connected to the lower end of the filter cavity 111, at the moment, the first control valve 32 is in a closed state, the second control valve 33 is in an open state, the water flows into the box body 21 through the first communication pipe 3, meanwhile, the first water outlet 212 of the box body 21 is communicated with the inlet of the cleaning mechanism 13 through the water pump 22, so that internal circulation of the water flow is realized to clean the glass 4, and after the glass 4 is cleaned, the glass 4 is conveyed out from the glass outlet 122 through the conveying mechanism 12.

When glass is cleaned, if glass 4 is broken in the cleaning mechanism 13, the detection switch 15 nearest to the broken position extinguishes the corresponding indicator light, meanwhile, the detection switch 15 sends a signal to be transmitted to the controller, the controller transmits a stop signal to the conveying mechanism 12, at the moment, the conveying mechanism 12 stops running, the controller respectively transmits state transition signals to the first control valve 32 and the second control valve 33, at the moment, the first control valve 32 is switched to be in an open state, the second control valve 33 is switched to be in a closed state, at the moment, water is pumped from the box body 21 to the cleaning mechanism 13 in the shell body 11 through the water pump 22, the cleaning mechanism 13 cleans the shell body 11, residues generated by glass 4 breakage are flushed to the filtering piece 113 installed in the filtering cavity 111 through the guide inclined plate 112, and fine residues which cannot be filtered by the filtering piece 113 enter the first communication pipe 3 along with water flow, the residues flow out of the cleaning system along with the water through the opened first control valve 32, so that the box body 21 can be prevented from being polluted, at the moment, a worker opens the cover plate 16 to confirm the fragment situation in the cleaning machine 1, after the fragment is cleaned, the cover plate 16 is installed on the shell 11 again, the telescopic buckle is taken down from the hook, the filter member 113 is taken out to clean the fragments left on the filter member 113, after the cleaning is finished, the filter member 113 is put into the filter cavity 111, the telescopic buckle is hung on the hook to fix the filter member 113, the detection switch 15 is reset, after the reset, the detection switch 15 transmits a reset signal to the controller, at the moment, the controller transmits an operation signal to the conveying mechanism 12, the conveying mechanism 12 recovers normal operation, the controller respectively transmits state transition signals to the first control valve 32 and the second control valve 33, at the moment, the first control valve 32 is closed, the second control valve 33 is opened, the whole cleaning system is recovered to normal operation, and water flow is recycled in the cleaning machine 1 and the water supply unit 2.

In some operation modes, the liquid level sensor 216 transmits a corresponding signal to the controller according to the water level change in the tank 21, the controller converts the signal transmitted by the liquid level sensor 216 into a transition signal and transmits the transition signal to the third control valve 215, and the third control valve 215 performs a corresponding opening or closing operation according to the signal, for example: if the water level in the tank body 21 is between the middle position sensor and the low position sensor, the water amount is insufficient, the liquid level sensor 216 transmits a state transition signal to the controller at this time, the third control valve 215 is opened, water is added into the tank body 21 from the outside, if the water level in the tank body 21 is between the middle position sensor and the high position sensor, the water amount is sufficient, the liquid level sensor 216 transmits a state transition signal to the controller at this time, the third control valve 215 is closed, water is not added into the tank body 21 from the outside, and the internal circulation of the water of the cleaning system is realized at this time.

The preferred embodiments of the present disclosure are described in detail above with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details in the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure as long as it does not depart from the gist of the present disclosure.

Claims (10)

1. A cleaning system, comprising:

the cleaning machine comprises a shell, and a conveying mechanism and a cleaning mechanism which are arranged in the shell, wherein the conveying mechanism is used for conveying glass from a glass inlet of the shell to a glass outlet of the shell, the cleaning mechanism is used for cleaning the glass, a filtering cavity with an upward opening and a guide inclined plate which surrounds the edge of the filtering cavity and extends outwards and upwards in an inclined manner are arranged in the shell, a filtering piece is arranged in the filtering cavity, and a first water drainage port communicated with the bottom end of the filtering cavity is arranged on the outer wall of the shell; and

the water supply unit comprises a box body and a water pump, a first water inlet of the box body is communicated with the first water discharging port through a first communicating pipe, and a first water outlet of the box body is communicated with an inlet of the cleaning mechanism through the water pump.

2. The cleaning system according to claim 1, wherein the casing has a first inner wall surface and a second inner wall surface which are opposite to each other in a conveying direction of the conveying mechanism, and a third inner wall surface and a fourth inner wall surface which are opposite to each other in the first direction perpendicular to the conveying direction, the filter cavity is located at a corner between the first inner wall surface and the third inner wall surface, an included angle between a first side edge of the guide inclined plate, which is connected with the first inner wall surface, and a horizontal plane is 4-6 degrees, an included angle between a second side edge of the inclined plate, which is connected with the third inner wall surface, and the horizontal plane is 1-3 degrees, and an included angle between a third side edge of the inclined plate, which is connected with the second inner wall surface, and the horizontal plane is 7-10 degrees.

3. The cleaning system defined in claim 1, wherein the housing has an opening in an outer wall thereof in communication with the filter chamber, the filter element includes a baffle and a filter frame secured to an inner wall of the baffle, the filter frame having a collection space, the filter frame being configured to extend from the opening into the filter chamber, the baffle being configured to sealingly cover the opening, and the filter element being removably coupled to the housing.

4. The washing system as claimed in claim 3, wherein the filter frame comprises a bottom plate and a side plate arranged around a partial circumference of the bottom plate, the side plate enclosing the collecting space together with the baffle plate, the bottom plate being configured as a sieve.

5. The cleaning system of claim 3, further comprising a controller and a detection switch, wherein the detection switch is arranged above the conveying mechanism and used for detecting whether the glass is broken, and the controller is in signal connection with the detection switch, the conveying mechanism and the water pump respectively.

6. The washing system as claimed in claim 5, wherein the number of the detection switches is plural, the plural detection switches are arranged at intervals in a first direction perpendicular to a conveying direction of the conveying mechanism, and the conveying direction and the first direction are both parallel to a horizontal plane.

7. The cleaning system of claim 5, wherein the first communication pipe is communicated with a drain pipe, a first control valve is arranged on the drain pipe, a second control valve is arranged on the first communication pipe and is located downstream of a connection position with the drain pipe, and the first control valve and the second control valve are respectively in signal connection with the controller.

8. The cleaning system of claim 5, wherein the tank is provided with a level sensor in signal connection with the controller.

9. The cleaning system according to claim 5, wherein a water replenishing port and a water replenishing pipeline positioned above the water replenishing port are arranged on the top wall surface of the box body, and a third control valve in signal connection with the controller is arranged on the water replenishing pipeline.

10. The cleaning system defined in any one of claims 1-9, wherein the top wall surface of the housing is provided with an opening located above the delivery mechanism, and a cover plate removably covering the opening.

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