CN220825210U - Cleaning equipment - Google Patents

Cleaning equipment Download PDF

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Publication number
CN220825210U
CN220825210U CN202322511597.3U CN202322511597U CN220825210U CN 220825210 U CN220825210 U CN 220825210U CN 202322511597 U CN202322511597 U CN 202322511597U CN 220825210 U CN220825210 U CN 220825210U
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China
Prior art keywords
cleaning
liquid
chamber
liquid inlet
foreign particle
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CN202322511597.3U
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Chinese (zh)
Inventor
周婵
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LG Display Optoelectronics Technology China Co Ltd
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LG Display Optoelectronics Technology China Co Ltd
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Abstract

The utility model discloses cleaning equipment, which comprises a cleaning chamber, a liquid inlet pipe, a liquid outlet pipe, a foreign particle sensing device and a controller, wherein at least one spray head is arranged in the cleaning chamber, the cleaning chamber is provided with a feed inlet and a discharge outlet, a material to be cleaned is sent into the cleaning chamber from the feed inlet, the cleaned material is sent out of the cleaning chamber from the discharge outlet, one end of the liquid inlet pipe is connected with a cleaning liquid source, the other end of the liquid inlet pipe is connected with the spray head, one end of the liquid outlet pipe is connected with the cleaning chamber, the liquid outlet pipe is used for discharging cleaned cleaning liquid, the foreign particle sensing device is arranged on the liquid inlet pipe and used for sensing foreign particle information, and the controller is in communication connection with the foreign particle sensing device and used for determining the content of foreign particles in the cleaning liquid according to the foreign particle information.

Description

Cleaning equipment
Technical Field
The utility model relates to a cleaning equipment technology, in particular to a cleaning equipment.
Background
In the production process of the display panel, material cleaning is an important link in the production process, for example, cleaning the substrate, and the cleaning effect determines the quality of the preparation (for example, a metal layer, an insulating layer, a light-emitting layer, etc.) on the substrate.
In the material cleaning process, the material is sent into the cleaning chamber, and the cleaning solution is sent into the cleaning chamber through the pipeline, and pipeline end-to-end connection has the shower nozzle, sprays the cleaning solution to the material through the shower nozzle, realizes the washing to the material.
If foreign particles exist in the cleaning liquid, the cleaning liquid with the foreign particles possibly damages materials under the strong impact of the spray head, and the foreign particles possibly remain on the materials, so that subsequent preparations cannot be normally molded, and the product quality is affected.
Disclosure of utility model
The utility model provides cleaning equipment which can monitor the content of foreign particles in cleaning liquid, improve the cleaning effect, avoid the damage of the foreign particles to materials in the cleaning process and improve the quality of subsequent preparations.
The cleaning apparatus of the present utility model includes:
the cleaning device comprises a cleaning chamber, wherein at least one spray head is arranged in the cleaning chamber, the cleaning chamber is provided with a feed inlet and a discharge outlet, a material to be cleaned is sent into the cleaning chamber from the feed inlet, and the cleaned material is sent out of the cleaning chamber from the discharge outlet;
one end of the liquid inlet pipe is connected with a cleaning liquid source, and the other end of the liquid inlet pipe is connected with the spray head;
The liquid discharge pipe is connected with the cleaning chamber at one end and is used for discharging the cleaned cleaning liquid;
The foreign particle sensing device is arranged on the liquid inlet pipe and is used for sensing foreign particle information;
the controller is in communication connection with the foreign particle sensing device and is used for determining the content of foreign particles in the cleaning liquid according to the foreign particle information.
Optionally, the cleaning chamber includes a plurality of subchambers, each subchamber is provided with the shower nozzle, the shower nozzle all with the feed liquor union coupling, wait to wash the material from the feed inlet is sent into the cleaning chamber, and is passed through a plurality of in proper order the subchamber, the material after the washing is followed the discharge gate is sent out the cleaning chamber.
Optionally, a filter is further arranged on the liquid inlet pipe.
Optionally, the liquid inlet and the liquid outlet of the filter are both provided with the foreign particle sensing device.
Optionally, the cleaning chamber comprises a plurality of sub-chambers, each sub-chamber is provided with a spray head, each sub-chamber is correspondingly provided with a cleaning tank, and the cleaning tanks are used for containing the corresponding cleaning liquid after cleaning the sub-chamber;
The liquid inlet pipe is connected with the spray head in the sub-chamber where the discharge hole is located, from the discharge hole to the direction of the discharge hole, the liquid outlet of the cleaning tank corresponding to the former sub-chamber is connected with the spray head of the latter sub-chamber through a connecting pipe, and the sub-chamber where the discharge hole is located is connected with the liquid outlet pipe.
Optionally, each connecting pipe is provided with a first filter, and the liquid inlet pipe is provided with a second filter.
Optionally, the liquid outlet of each first filter is provided with the foreign particle sensing device, and the liquid inlet and the liquid outlet of the second filter are provided with the foreign particle sensing device.
Optionally, the feed liquor pipe is transparent pipeline, foreign matter granule perception device includes laser emission portion, laser receiving part, clamping part and control portion, the clamping part centre gripping in on the feed liquor pipe, laser emission portion laser receiving part with control portion set up in on the clamping part, laser emission portion with laser receiving part follows the radial relative setting of feed liquor pipe, control portion respectively with laser emission portion laser receiving part with controller communication connection.
Optionally, a flow sensor and a pressure sensor are further arranged on the liquid inlet pipe, and the flow sensor and the pressure sensor are both connected with the controller.
Optionally, the cleaning apparatus further comprises an alarm communicatively coupled to the controller.
The utility model provides cleaning equipment, which comprises a cleaning chamber, a liquid inlet pipe, a liquid outlet pipe, a foreign particle sensing device and a controller, wherein at least one spray head is arranged in the cleaning chamber, the cleaning chamber is provided with a feed inlet and a discharge outlet, a material to be cleaned is sent into the cleaning chamber from the feed inlet, the cleaned material is sent out of the cleaning chamber from the discharge outlet, one end of the liquid inlet pipe is connected with a cleaning liquid source, the other end of the liquid inlet pipe is connected with the spray head, one end of the liquid outlet pipe is connected with the cleaning chamber, the liquid outlet pipe is used for discharging the cleaned cleaning liquid, the foreign particle sensing device is arranged on the liquid inlet pipe and used for sensing foreign particle information, and the controller is in communication connection with the foreign particle sensing device and used for determining the content of foreign particles in the cleaning liquid according to the foreign particle information.
Drawings
The utility model is described in further detail below with reference to the drawings and examples.
Fig. 1 is a schematic structural diagram of a cleaning apparatus according to an embodiment of the present utility model;
Fig. 2 is a schematic structural diagram of a foreign particle sensing device according to an embodiment of the present utility model;
Fig. 3 is a schematic structural diagram of another cleaning apparatus according to an embodiment of the present utility model.
Detailed Description
In order to make the technical problems solved by the present utility model, the technical solutions adopted and the technical effects achieved more clear, the technical solutions of the embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.
In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.
In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for providing a special meaning.
Fig. 1 is a schematic structural diagram of a cleaning apparatus according to an embodiment of the present utility model, as shown in fig. 1, the cleaning apparatus includes:
The cleaning device comprises a cleaning chamber 110, wherein at least one spray head 120 is arranged in the cleaning chamber 110, the cleaning chamber 110 is provided with a feed port 111 and a discharge port 112, the material to be cleaned is fed into the cleaning chamber 110 from the feed port 111, and the cleaned material is fed out of the cleaning chamber 110 from the discharge port 112. Illustratively, in some embodiments of the present utility model, a plurality of spray heads having different cleaning functions, for example, spray heads for spraying, spray heads for powerful rinsing, etc., are disposed in the cleaning chamber 110, and embodiments of the present utility model are not limited thereto. Illustratively, in some embodiments of the present utility model, the material to be cleaned is placed on a conveyor that passes through the cleaning chamber 110 from the feed port 111 and the discharge port 112, and the material to be cleaned is carried into the cleaning chamber 110 and the cleaned material is carried out of the cleaning chamber 110 by virtue of the conveyor running.
The liquid inlet pipe 130, one end of the liquid inlet pipe 130 is connected with a cleaning liquid source, and the other end of the liquid inlet pipe 130 is connected with the spray head 120. The cleaning fluid source is used to provide a cleaning fluid, which may be deionized water in some embodiments of the utility model, as examples, and embodiments of the utility model are not limited in this respect. After the material to be cleaned is transferred to the cleaning chamber 110, the nozzle 120 sprays cleaning liquid to clean the material to be cleaned which is sent into the cleaning chamber 110, and the cleaned material is sent out of the cleaning chamber 110.
And a drain pipe 140, one end of the drain pipe 140 being connected to the cleaning chamber 110, the drain pipe 140 being used for discharging the cleaned cleaning liquid. Illustratively, the cleaned cleaning liquid collects at the bottom of the cleaning chamber 110 and is drained in time by the drain 140.
The foreign particle sensing device 150, the foreign particle sensing device 150 is disposed on the liquid inlet pipe 130, and is used for sensing the information of the foreign particles.
The controller 160, the controller 160 is in communication connection with the foreign particle sensing device 150, and the controller 160 is used for determining the content of the foreign particles in the cleaning liquid according to the foreign particle information. The controller 160 and the foreign particle sensing device 150 may be connected by a wired connection or a wireless connection, for example, and the present utility model is not limited thereto. The foreign particle sensing device 150 transmits the foreign particle information to the controller 160, and the controller 160 determines the content of the foreign particles in the cleaning liquid according to the foreign particle information. When the content of the foreign particles is greater than the preset value, the controller 160 may control the liquid supply system to stop supplying and cleaning, control the conveying system to stop conveying the material, and the like, which is not limited herein.
The cleaning equipment provided by the embodiment of the utility model comprises a cleaning chamber, a liquid inlet pipe, a liquid outlet pipe, a foreign particle sensing device and a controller, wherein at least one spray head is arranged in the cleaning chamber, the cleaning chamber is provided with a feed inlet and a discharge outlet, a material to be cleaned is fed into the cleaning chamber from the feed inlet, the cleaned material is fed out of the cleaning chamber from the discharge outlet, one end of the liquid inlet pipe is connected with a cleaning liquid source, the other end of the liquid inlet pipe is connected with the spray head, one end of the liquid outlet pipe is connected with the cleaning chamber, the liquid outlet pipe is used for discharging the cleaned cleaning liquid, the foreign particle sensing device is arranged on the liquid inlet pipe and used for sensing foreign particle information, and the controller is in communication connection with the foreign particle sensing device and used for determining the content of foreign particles in the cleaning liquid according to the foreign particle information.
In some embodiments of the present utility model, as shown in fig. 1, the cleaning chamber 110 includes a plurality of sub-chambers 101, and a spray head 120 is disposed in each sub-chamber 101, and the spray head 120 is connected to a liquid inlet pipe 130. For example, in some embodiments of the present utility model, each sub-chamber 101 has different cleaning functions, and correspondingly, the sub-chamber 101 with different functions, for example, the sub-chamber 101 with the feeding hole 111 is mainly responsible for washing away the foreign matters attached to the surface of the material, so that the nozzle with a certain impact force is required, the sub-chamber 101 with the discharging hole 112 is mainly responsible for the final cleaning process, and the sub-chamber 101 needs to have a shower nozzle with a mild force. The material to be cleaned is fed into the cleaning chamber 110 from the feed port 111, sequentially passes through the plurality of sub-chambers 101, and the cleaned material is fed out of the cleaning chamber 110 from the discharge port 112.
In some embodiments of the present utility model, as shown in fig. 1, a filter 170 is further disposed on the liquid inlet pipe 130, and the filter 170 is used to filter out foreign matters in the cleaning liquid flowing from the liquid inlet pipe 130 to the cleaning chamber 110. In some embodiments of the present utility model, the foreign particle sensing device 150 may be disposed at the liquid inlet or the liquid outlet of the filter 170, which is not limited herein.
In some embodiments of the present utility model, as shown in fig. 1, both the liquid inlet and the liquid outlet of the filter 170 are provided with a foreign particle sensing device 150. The foreign particle sensing device 150 at the liquid inlet of the filter 170 is used for monitoring the content of foreign particles in the cleaning liquid source, and the foreign particle sensing device 150 at the liquid outlet of the filter 170 is used for monitoring the content of foreign particles in the cleaning liquid filtered by the filter 170. Any foreign particle sensor 150 monitors a content exceeding a predetermined value, and the controller 160 controls the liquid supply system to stop supplying the cleaning liquid and controls the conveyor system to stop conveying the material.
Illustratively, in some embodiments of the present utility model, the inlet tube 130 is a transparent tube, or the section of tube in which the foreign particle sensing device 150 is disposed is a transparent tube.
Fig. 2 is a schematic structural diagram of a foreign particle sensing device according to an embodiment of the present utility model, as shown in fig. 2, the foreign particle sensing device includes a laser emitting portion 151, a laser receiving portion 152, a clamping portion 153 and a control portion 154, the clamping portion 153 is clamped on a liquid inlet tube 130, the laser emitting portion 151, the laser receiving portion 152 and the control portion 154 are disposed on the clamping portion 153, the laser emitting portion 151 and the laser receiving portion 152 are disposed opposite to each other along a radial direction of the liquid inlet tube 130, and the control portion 154 is respectively in communication connection with the laser emitting portion 151, the laser receiving portion 152 and the controller 160. Illustratively, the control portion 154 controls the laser emitting portion 151 to emit laser light, the laser light is received by the laser receiving portion 152 through the liquid inlet tube 130 and the internal cleaning liquid, the laser receiving portion 152 feeds back an optical signal to the control portion 154, and the control portion 154 sends the optical signal to the controller 160. When the laser passes through the cleaning solution, if foreign particles exist in the cleaning solution, the laser will scatter, so that the optical signal received by the laser receiving portion 152 changes, and the controller 110 can calculate the content of the foreign particles in the cleaning solution according to the optical signal.
In some embodiments of the present utility model, as shown in fig. 1, a flow sensor 181 and a pressure sensor 182 are further disposed on the liquid inlet tube 130, where the flow sensor 181 and the pressure sensor 182 are connected to the controller 160. The flow sensor 181 is used for monitoring the flow rate of the cleaning liquid in the liquid inlet pipe 130 and transmitting flow information to the controller 160, and the pressure sensor 182 is used for monitoring the pressure of the cleaning liquid in the liquid inlet pipe 130 and transmitting pressure information to the controller 160. The controller 160 may control the liquid supply system to stop supplying the cleaning and the conveyor system to stop conveying the material when the flow rate or pressure in the liquid inlet pipe 130 is abnormal. In the embodiment of the present utility model, the relative positional relationship between the flow sensor 181 and the pressure sensor 182 and the foreign particle sensing device 150 is not limited, and may be located at the liquid inlet of the foreign particle sensing device 150 or may be located at the liquid outlet of the foreign particle sensing device 150, so long as the flow sensor and the pressure sensor 182 are disposed on the liquid inlet pipe 130.
In some embodiments of the present utility model, as shown in FIG. 1, the cleaning apparatus further includes an alarm 190, the alarm 190 being communicatively coupled to the controller 160. The controller 160 controls the alarm 190 to alarm when the content of foreign particles is abnormal or the flow rate or the pressure is abnormal, and the alarm 190 may alarm in the form of sound, light, etc. by way of example, the embodiment of the utility model is not limited herein.
Fig. 3 is a schematic structural diagram of another cleaning apparatus according to an embodiment of the present utility model, and as shown in fig. 3, the cleaning apparatus includes a cleaning chamber 110, a liquid inlet pipe 130, a liquid outlet pipe 140, a foreign particle sensing device 150, and a controller 160.
The cleaning chamber 110 includes a plurality of sub-chambers 101, each sub-chamber 101 is provided with a spray head 120, each sub-chamber is correspondingly provided with a cleaning tank 102, and the cleaning tank 102 is used for containing the cleaning liquid after the corresponding sub-chamber 101 is cleaned. The liquid inlet pipe 130 is connected with the spray head in the sub-chamber 101 where the discharge hole 112 is located, from the discharge hole 112 to the direction of the feed hole 111, the liquid discharge hole of the cleaning tank 102 corresponding to the previous sub-chamber 101 is connected with the spray head 120 of the next sub-chamber 101 through the connecting pipe 103, and the sub-chamber 101 where the feed hole 111 is located is connected with the liquid discharge pipe 140. Illustratively, each sub-chamber 101 has a different cleaning function, and accordingly, a spray head having a different function, embodiments of the present utility model are not limited herein. The material to be cleaned is fed into the cleaning chamber 110 from the feed port 111, sequentially passes through the plurality of sub-chambers 101, and the cleaned material is fed out of the cleaning chamber 110 from the discharge port 112.
Illustratively, in some embodiments of the present utility model, the material to be cleaned is placed on a conveyor that passes through the cleaning chamber 110 from the feed port 111 and the discharge port 112, and the material to be cleaned is carried into the cleaning chamber 110 and the cleaned material is carried out of the cleaning chamber 110 by virtue of the conveyor running. At the same time, each sub-chamber 101 has a material to be cleaned in the cleaning chamber 110. The cleaning liquid enters the sub-chamber 101 where the discharge port 112 is located from the liquid inlet pipe 130, is sprayed out by the spray head 120 of the sub-chamber 101 to clean the material in the sub-chamber 101, the cleaned cleaning liquid is collected in the cleaning tank 102 corresponding to the sub-chamber 101, and is sent into the next sub-chamber from the discharge port 112 to the direction of the feed port 111 by the connecting pipe 103, and is sprayed out by the spray head of the next sub-chamber to clean the material in the next sub-chamber. And so on, until the material in the subchamber where the feed port 111 is located is cleaned, and then discharged from the liquid discharge pipe 140. In this embodiment, the clean cleaning solution in the liquid inlet pipe 130 is used to perform final cleaning on the material to be sent out of the discharge port 112, so as to improve the final material cleaning effect. In addition, from the direction from the discharge hole 112 to the feed hole 111, the cleaning liquid after the cleaning in the former sub-chamber is led into the latter sub-chamber to clean the material in the latter sub-chamber, so that the recycling rate of the cleaning liquid is improved.
Illustratively, as shown in FIG. 3, each connecting tube 103 is provided with a first filter 171 and the inlet tube 130 is provided with a second filter 172. The first filter 171 is used to remove foreign materials in the cleaning liquid flowing to the sub-chamber through the connection pipe 103, and the second filter 172 is used to remove foreign materials in the cleaning liquid flowing to the cleaning chamber 110 through the liquid inlet pipe 130, thereby improving the cleaning effect.
As shown in fig. 3, the liquid outlet of each first filter 171 is provided with a foreign particle sensing device 150, and the liquid inlet and the liquid outlet of the second filter 172 are provided with a foreign particle sensing device 150. The foreign particle sensing device 150 at the liquid outlet of the first filter 171 is used for monitoring the content of foreign particles in the cleaning liquid flowing to the sub-chamber, the foreign particle sensing device 150 at the liquid inlet of the second filter 172 is used for monitoring the content of foreign particles in the cleaning liquid source, and the foreign particle sensing device 150 at the liquid outlet of the second filter 172 is used for monitoring the content of foreign particles in the cleaning liquid filtered by the second filter 172. Illustratively, any foreign particle sensing device 150 monitors a content exceeding a predetermined value, and the controller 160 controls the liquid supply system to stop supplying cleaning and the conveyor system to stop conveying material.
Illustratively, in some embodiments of the present utility model, the liquid inlet pipe 130 is a transparent pipe, or the section of pipe provided with the foreign particle sensing device 150 is a transparent pipe, the connection pipe 103 is a transparent pipe, or the section of pipe provided with the foreign particle sensing device 150 is a transparent pipe.
Referring to fig. 2, the foreign particle sensing apparatus includes a laser emitting portion 151, a laser receiving portion 152, a clamping portion 153 and a control portion 154, the clamping portion 153 is clamped on the liquid inlet tube 130, the laser emitting portion 151, the laser receiving portion 152 and the control portion 154 are disposed on the clamping portion 153, the laser emitting portion 151 and the laser receiving portion 152 are disposed opposite to each other in a radial direction of the liquid inlet tube 130, and the control portion 154 is respectively in communication connection with the laser emitting portion 151, the laser receiving portion 152 and the controller 160. Illustratively, the control portion 154 controls the laser emitting portion 151 to emit laser light, the laser light is received by the laser receiving portion 152 through the liquid inlet tube 130 and the internal cleaning liquid, the laser receiving portion 152 feeds back an optical signal to the control portion 154, and the control portion 154 sends the optical signal to the controller 160. When the laser passes through the cleaning solution, if foreign particles exist in the cleaning solution, the laser will scatter, so that the optical signal received by the laser receiving portion 152 changes, and the controller 110 can calculate the content of the foreign particles in the cleaning solution according to the optical signal.
Illustratively, as shown in fig. 3, the liquid inlet pipe 130 is further provided with a flow sensor 181 and a pressure sensor 182, and the flow sensor 181 and the pressure sensor 182 are connected to the controller 160. The flow sensor 181 is used for monitoring the flow rate of the cleaning liquid in the liquid inlet pipe 130 and transmitting flow information to the controller 160, and the pressure sensor 182 is used for monitoring the pressure of the cleaning liquid in the liquid inlet pipe 130 and transmitting pressure information to the controller 160. The controller 160 may control the liquid supply system to stop supplying the cleaning and the conveyor system to stop conveying the material when the flow rate or pressure in the liquid inlet pipe 130 is abnormal. In the embodiment of the present utility model, the relative positional relationship between the flow sensor 181 and the pressure sensor 182 and the foreign particle sensing device 150 is not limited, and may be located at the liquid inlet of the foreign particle sensing device 150 or may be located at the liquid outlet of the foreign particle sensing device 150, so long as the flow sensor and the pressure sensor 182 are disposed on the liquid inlet pipe 130.
In some embodiments of the present utility model, as shown in FIG. 3, the cleaning apparatus further includes an alarm 190, the alarm 190 being communicatively coupled to the controller 160. The controller 160 controls the alarm 190 to alarm when the content of foreign particles is abnormal or the flow rate or the pressure is abnormal, and the alarm 190 may alarm in the form of sound, light, etc. by way of example, the embodiment of the utility model is not limited herein.
In the description herein, it should be understood that the terms "upper," "lower," "left," "right," and the like are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify operation, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model.
In the description herein, reference to the term "one embodiment," "an example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.
Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in the foregoing embodiments, and that the embodiments described in the foregoing embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.
The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. A cleaning apparatus, comprising:
the cleaning device comprises a cleaning chamber, wherein at least one spray head is arranged in the cleaning chamber, the cleaning chamber is provided with a feed inlet and a discharge outlet, a material to be cleaned is sent into the cleaning chamber from the feed inlet, and the cleaned material is sent out of the cleaning chamber from the discharge outlet;
one end of the liquid inlet pipe is connected with a cleaning liquid source, and the other end of the liquid inlet pipe is connected with the spray head;
The liquid discharge pipe is connected with the cleaning chamber at one end and is used for discharging the cleaned cleaning liquid;
The foreign particle sensing device is arranged on the liquid inlet pipe and is used for sensing foreign particle information;
the controller is in communication connection with the foreign particle sensing device and is used for determining the content of foreign particles in the cleaning liquid according to the foreign particle information.
2. The cleaning apparatus of claim 1, wherein the cleaning chamber comprises a plurality of subchambers, each subchamber being provided with a spray head, the spray heads being connected to the liquid inlet pipe, the material to be cleaned being fed into the cleaning chamber from the liquid inlet, the material to be cleaned being fed out of the cleaning chamber from the liquid outlet, through the plurality of subchambers in sequence.
3. The cleaning apparatus of claim 2, wherein a filter is further disposed on the feed pipe.
4. A cleaning apparatus according to claim 3, wherein the liquid inlet and the liquid outlet of the filter are both provided with the foreign particle sensing means.
5. The cleaning apparatus according to claim 1, wherein the cleaning chamber comprises a plurality of subchambers, each of the subchambers being provided with a spray head, each of the subchambers being correspondingly provided with a cleaning tank for holding the cleaning liquid after the cleaning of the corresponding subchamber;
The liquid inlet pipe is connected with the spray head in the sub-chamber where the discharge hole is located, from the discharge hole to the direction of the discharge hole, the liquid outlet of the cleaning tank corresponding to the former sub-chamber is connected with the spray head of the latter sub-chamber through a connecting pipe, and the sub-chamber where the discharge hole is located is connected with the liquid outlet pipe.
6. The cleaning apparatus of claim 5, wherein a first filter is disposed on each of the connecting tubes and a second filter is disposed on the feed tube.
7. The cleaning apparatus of claim 6, wherein the liquid outlet of each of the first filters is provided with the foreign particle sensing device, and the liquid inlet and liquid outlet of the second filter are provided with the foreign particle sensing device.
8. The cleaning apparatus according to any one of claims 1 to 7, wherein the liquid inlet pipe is a transparent pipe, the foreign particle sensing device includes a laser emitting portion, a laser receiving portion, a clamping portion and a control portion, the clamping portion is clamped on the liquid inlet pipe, the laser emitting portion, the laser receiving portion and the control portion are disposed on the clamping portion, the laser emitting portion and the laser receiving portion are disposed opposite to each other in a radial direction of the liquid inlet pipe, and the control portion is respectively in communication connection with the laser emitting portion, the laser receiving portion and the controller.
9. The cleaning apparatus of claim 8, wherein the feed tube is further provided with a flow sensor and a pressure sensor, both of which are connected to the controller.
10. The cleaning apparatus defined in claim 9, further comprising an alarm in communication with the controller.
CN202322511597.3U 2023-09-14 2023-09-14 Cleaning equipment Active CN220825210U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322511597.3U CN220825210U (en) 2023-09-14 2023-09-14 Cleaning equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322511597.3U CN220825210U (en) 2023-09-14 2023-09-14 Cleaning equipment

Publications (1)

Publication Number Publication Date
CN220825210U true CN220825210U (en) 2024-04-23

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322511597.3U Active CN220825210U (en) 2023-09-14 2023-09-14 Cleaning equipment

Country Status (1)

Country Link
CN (1) CN220825210U (en)

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