CN117681562A - Shower nozzle belt cleaning device - Google Patents

Abstract

The application belongs to shower nozzle cleaning technical field, specifically provides a shower nozzle belt cleaning device. The spray head cleaning device comprises a rack, and an unreeling component, a reeling component, a first wiping component and a humidifying spray head which are arranged on the rack, wherein the unreeling component is used for installing wiping cloth to be used, the reeling component is used for recycling the used wiping cloth, the wiping cloth extends to the reeling component from the unreeling component through the first wiping component, the first wiping component is used for supporting the wiping cloth and enabling the wiping cloth to be in contact with the spray head, and the humidifying spray head can spray water towards the wiping cloth located between the unreeling component and the first wiping component. The application has guaranteed that the wiping cloth that contacts with the shower nozzle is relatively clean wiping cloth all the time, and can make the wiping cloth be wetted before contacting with the shower nozzle, and then is favorable to improving the cleaning performance of wiping cloth to the shower nozzle to and clear away the solidified ink on the shower nozzle more high-efficiently.

Description

Shower nozzle belt cleaning device

Technical Field

The application belongs to shower nozzle cleaning equipment technical field, and more specifically relates to a shower nozzle belt cleaning device.

Background

The nozzle of the printing device can generate some accumulated ink during the use process, so that the nozzle needs to be cleaned timely to remove the micro-accumulated ink. At present, the conventional spray head cleaning mode is to scrape accumulated ink on the surface of the spray head by using a contact type scraper, and the ink is easy to adhere to the surfaces of the spray head and the scraper because the concentration of partial ink is higher and the contact pressure of the scraper and the spray head cannot be overlarge, so that the ink scraping effect is poor, and the cleaning effect on the spray head is further affected. Based on the above, it is necessary to design a new head cleaning device.

Disclosure of Invention

The purpose of this application is to provide shower nozzle belt cleaning device to solve the relatively poor technical problem of shower nozzle cleaning effect that exists among the prior art.

In order to achieve the above purpose, the technical scheme adopted in the application is as follows:

provided is a head cleaning device including:

a frame;

the unreeling assembly is arranged on the rack and is used for mounting the wiping cloth to be used;

the rolling component is arranged on the rack and is used for recycling the used wiping cloth;

a first wiper assembly disposed at an upper end of the housing, the wiper extending from the unwind assembly through the first wiper assembly to the wind-up assembly, the first wiper assembly for supporting the wiper and contacting the wiper with a spray head;

the humidifying sprayer is arranged on the frame and can spray water towards the wiping cloth between the unreeling component and the first wiping component.

Firstly, the unreeling component and the reeling component are arranged, so that the wiping cloth can move on the first wiping component, further wiping and cleaning of the spray head are realized, and the wiping cloth contacted with the spray head is ensured to be relatively clean all the time; secondly, through first wiping subassembly with unreel set up between the subassembly humidification shower nozzle can make the wiping cloth is wetted before contacting with the shower nozzle, and then is favorable to improving the cleaning performance of wiping cloth to the shower nozzle to and more high-efficient clear away the solidified ink on the shower nozzle.

As a technical scheme, the first wiping component comprises a first wiping support, a first wiping shaft and a first buffer structure, wherein the first wiping support is arranged on the frame, two ends of the first wiping shaft are respectively installed on the first wiping support through the first buffer structure, and the first wiping shaft is used for supporting the wiping cloth.

Specifically, through will be used for supporting the first shaft that cleans the cloth sets up on the first buffer structure for in the in-process to the shower nozzle washing, the contact of cleaning the cloth with the shower nozzle is flexible contact, has avoided in the washing process the extrusion force of shaft to the shower nozzle is too big even collide, and then has realized the protection to the shower nozzle.

As a technical scheme, first buffer structure includes first supporting bolt and first supporting spring, first supporting bolt is fixed on the first support of cleaning, first supporting spring cover is established first supporting bolt week, the tip cover of first wiping the axle is established first supporting bolt's week, just first wiping the axle with the upper end butt of first supporting spring, first wiping the axle and can follow first supporting bolt's axis direction removes.

Specifically, through will the first axle that cleans slides and set up on the first supporting bolt for first supporting bolt both realizes to the first equipment of cleaning the axle is fixed, realizes again that the removal of first supporting shaft leads control, is favorable to simplifying overall structure and makes first buffer structure is compacter.

As a technical scheme, be provided with the guide way in the frame, the extending direction of guide way is the same with the axis direction of first supporting bolt, first wiping axle inserts in the guide way, and with guide way sliding connection.

Specifically, through setting up the guide way, can improve the stability that the first axle that cleans removed reduces the vibration of first axle in the removal in-process, and then can improve the stability that the wiper contacted with the shower nozzle reduces the risk of damaging the shower nozzle in the cleaning process.

As a technical scheme, first wiping subassembly with humidification shower nozzle level interval sets up, shower nozzle belt cleaning device still includes the collecting tray, the collecting tray sets up the frame, just the collecting tray is located first wiping subassembly with the below of humidification shower nozzle.

Specifically, through set up in the below of first wiping subassembly with humidification shower nozzle the collection dish can collect the ink that drops on the water that is used for the humidification and the shower nozzle, avoids these liquids to pollute other parts, especially avoids these liquids to pollute unused the wiper, and then effectively guarantees the cleanliness factor of unused wiper.

As a technical scheme, the water outlet direction of the humidifying nozzle faces downwards, and the water outlet direction is inclined towards one side close to the first wiping component.

Specifically, set up the play water direction of humidification shower nozzle to be close to first wiping subassembly one side slope downwards, can enough use the liquid that is used for the humidification more fully moisten the wiping cloth, can avoid unnecessary liquid to spill everywhere again better, and then make unnecessary liquid by the collection dish is retrieved better.

As a technical scheme, the humidification shower nozzle includes nozzle and humidification pipe, the nozzle passes through the humidification pipe is installed in the frame, shower nozzle belt cleaning device still includes the humidification joint, the humidification joint sets up the frame is kept away from one side of humidification shower nozzle, the humidification joint passes through the humidification pipe with the nozzle intercommunication, the humidification joint is used for connecting outside water source.

Specifically, humidification shower nozzle the unreel the subassembly the rolling subassembly with first wiping subassembly is located the same one side of frame, through will the humidification connect with the humidification shower nozzle sets up the both sides of frame, can keep apart the water pipe that the humidification connects with the humidification shower nozzle the unreel the subassembly the rolling subassembly the first wiping subassembly isotructure avoids water pipe and these structures to interfere, and then makes overall structure's functional partition more obvious, is favorable to improving this shower nozzle belt cleaning device's operational reliability.

As a technical scheme, shower nozzle belt cleaning device still includes the cloth response subassembly, the cloth response subassembly sets up in the frame, the cloth response subassembly is used for detecting unreel the subassembly or on the rolling subassembly whether the wiper winds to preset position.

Specifically, in the case where the cloth sensing assembly is used to detect the wipe on the winding assembly, when the cloth sensing assembly detects the wipe, it is indicated that the winding assembly is full, it is further indicated that the unwinding assembly is empty, at which time a new roll of the wipe needs to be placed on the unwinding assembly, and the used wipe on the winding assembly is blanked. Correspondingly, when the cloth sensing assembly is used for detecting the wiping cloth on the unreeling assembly, the cloth sensing assembly cannot detect the wiping cloth, the unreeling assembly is empty, the reeling assembly is full, a new wiping cloth roll is required to be placed on the unreeling assembly, and the used wiping cloth on the reeling assembly is fed.

As a technical scheme, shower nozzle belt cleaning device still includes the second and cleans the subassembly, the second cleans the subassembly setting and is in the upper end of frame, just the second cleans the subassembly with the first and cleans the subassembly and set up at the horizontal direction interval, wipe the cloth follow unreel the subassembly pass through in proper order first and the second cleans the subassembly and extends to the rolling subassembly, the second cleans the subassembly and is used for supporting wipe cloth and makes wipe cloth and shower nozzle contact.

Specifically, by arranging the second wiping component, and using the first wiping component and the second wiping component together with the unreeling component and the reeling component, the wiping cloth on the second wiping component is used once, so that in the cleaning process, the first wiping component is used for primarily cleaning the spray head, then the spray head after primary cleaning is moved to the first wiping component, and then the first wiping component is used for finally cleaning the spray head. The design can fully utilize the slightly polluted wiping cloth, can divide the cleaning of the spray heads into two stages, and can clean the two spray heads at the same time, so that the overall cleaning efficiency is improved.

As a technical scheme, shower nozzle belt cleaning device still includes the shower nozzle, the shower nozzle sets up the frame, just the shower nozzle is located first wiping subassembly with between the second wiping subassembly, the shower nozzle is used for washing away first wiping subassembly with between the second wiping subassembly the wiping cloth.

Specifically, by providing the rinse head, the wiper that has undergone a slight contamination of one use can be rinsed to flush off ink or ink residue from the wiper, thereby improving the cleanliness of the wiper used at the second wiper assembly. In a specific use process, only one of the first wiping component and the second wiping component can be used, namely, the spray head is only cleaned at the first wiping component or the second wiping component, and in the use state, the spray head cleaning device with the two wiping components is not different from the spray head cleaning device with the first wiping component, and the use effect is the same.

The shower nozzle belt cleaning device that this application provided's beneficial effect lies in:

firstly, the unreeling component and the reeling component are arranged, so that the wiping cloth can move on the first wiping component, further wiping and cleaning of the spray head are realized, and the wiping cloth contacted with the spray head is ensured to be relatively clean all the time; secondly, through first wiping subassembly with unreel set up between the subassembly humidification shower nozzle can make the wiping cloth is wetted before contacting with the shower nozzle, and then is favorable to improving the cleaning performance of wiping cloth to the shower nozzle to and more high-efficient clear away the solidified ink on the shower nozzle.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic front view of a cleaning device for a spray head according to an embodiment of the present application;

fig. 2 is a schematic front view of a spray head cleaning device according to an embodiment of the present application (the sub-frame plate and the wiping cloth roll are not shown);

FIG. 3 is an enlarged view of a portion of the position A shown in FIG. 2;

FIG. 4 is a schematic view of the reverse structure of a shower head cleaning apparatus according to an embodiment of the present disclosure (sub-frame plate not shown);

fig. 5 is a schematic front view of another front structure of a cleaning device for a spray head according to an embodiment of the present disclosure;

fig. 6 is a partial enlarged view of the position B shown in fig. 5.

Wherein, each reference sign in the figure:

1. a frame; 11. a main frame plate; 12. a sub-frame plate; 13. a guide groove;

2. unreeling the assembly; 21. an unreeling brake; 22. a reel is unreeled; 23. a compaction block;

3. a winding assembly; 31. a winding motor; 32. a winding shaft; 33. a pressing rod;

4. a first wiping component; 41. a first wiping bracket; 42. a first wiping shaft; 421. a first inner shaft; 422. a first outer shaft; 423. a first bearing; 43. a first buffer structure; 431. a first support bolt; 432. a first support spring;

51. humidifying the spray head; 511. a nozzle; 512. a humidifying pipe; 52. a humidifying joint; 53. flushing the spray head;

61. a tension roller; 62. a limit rod;

7. a collection tray; 71. a tray body; 72. a liquid discharge joint;

8. a cloth sensing assembly; 81. a fixed bracket; 82. a sensor;

9. a second wiper assembly; 91. a second wiping bracket; 92. a second wiping shaft; 921. a second inner shaft; 922. a second outer shaft; 923. a second bearing; 93. a second buffer structure; 931. a second support bolt; 932. a second support spring;

100. and wiping cloth.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and therefore should not be construed as limiting the present application.

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

The utility model provides a shower nozzle belt cleaning device, as shown in fig. 1 and 2, this shower nozzle belt cleaning device includes frame 1, unreel subassembly 2, rolling subassembly 3, first wiping subassembly 4 and humidification shower nozzle 51, unreel subassembly 2 sets up on frame 1, unreel subassembly 2 is used for installing the wiper 100 that is to use, rolling subassembly 3 sets up on frame 1, rolling subassembly 3 is used for retrieving the wiper 100 that has used, first wiping subassembly 4 sets up the upper end of frame 1, wiper 100 extends to rolling subassembly 3 from unreel subassembly 2 through first wiping subassembly 4, first wiping subassembly 4 is used for supporting wiper 100 and makes wiper 100 and shower nozzle contact humidification shower nozzle 51 set up on frame 1, humidification shower nozzle 51 can spray water towards wiper 100 that is located between unreel subassembly 2 and first wiping subassembly 4. Further, the wiping cloth 100 is a dust-free cloth.

Specifically, firstly, by arranging the unreeling component 2 and the reeling component 3, the wiping cloth 100 can move on the first wiping component 4, thereby realizing wiping and cleaning of the spray head, and ensuring that the wiping cloth 100 contacted with the spray head is always relatively clean wiping cloth 100; secondly, by providing the humidifying nozzle 51 between the first wiping component 4 and the unreeling component 2, the wiping cloth 100 can be wetted before contacting with the nozzle, so that the cleaning effect of the wiping cloth 100 on the nozzle is improved, and the solidified ink on the nozzle is removed more efficiently.

In the specific implementation process, the unreeling component 2 and the reeling component 3 are positioned below the first wiping component 4, and the design can fully utilize the space in the height direction, so that the horizontal area occupied by the spray head cleaning device is reduced.

In one embodiment, as shown in fig. 2 and 4, the unwinding assembly 2 includes an unwinding brake 21 and an unwinding shaft 22, the unwinding brake 21 is fixedly disposed on the frame 1, the unwinding shaft 22 is disposed on an output shaft of the unwinding brake 21, the unwinding brake 21 is capable of providing damping to the unwinding shaft 22, and the unwinding shaft 22 is capable of mounting the rolled wiping cloth 100 thereon. Further, the unreeling assembly 2 further comprises a pressing block 23, wherein the pressing block 23 is arranged on the end face of the unreeling shaft 22, and the pressing block 23 can press the wiping cloth 100 outwards in the radial direction so that the unreeling shaft 22 can rotate along with the wiping cloth 100.

In one embodiment, the unwind brake 21 is a magnetic powder brake that provides a certain resistance to the unwind shaft 22 through the unwind brake 21 to provide tension to the wipe 100.

In one embodiment, as shown in fig. 2 and 4, the winding assembly 3 includes a winding motor 31 and a winding shaft 32, the winding motor 31 is fixedly disposed on the frame 1, the winding shaft 32 is disposed on an output shaft of the winding motor 31 and can rotate along with the output shaft of the winding motor 31, and the winding shaft 32 can mount the rolled wiping cloth 100 thereon. Further, the take-up assembly 3 further includes a pressing lever 33, the pressing lever 33 being provided on the take-up shaft 32, the pressing lever 33 being for clamping the end portion of the wiper 100 to the peripheral portion of the take-up shaft 32.

In one embodiment, as shown in fig. 1 and 2, the shower head cleaning device further comprises a tensioning roller 61 and a limiting rod 62, wherein the tensioning roller 61 is arranged on the frame 1, the tensioning roller 61 is positioned on two sides of the first wiping component 4, and the tensioning roller 61 can enable the wiping cloth 100 to be tightly attached to the first wiping component 4; the limiting rod 62 is arranged on the frame 1, and the limiting rod 62 is used for limiting the conveying path of the wiping cloth 100 so that the wiping cloth 100 can be conveyed according to the preset path, interference between the wiping cloth 100 and other parts is avoided, and cleanliness of the wiping cloth 100 is further guaranteed.

In one embodiment, as shown in fig. 2 and 3, the first wiping assembly 4 includes a first wiping bracket 41, a first wiping shaft 42, and a first buffer structure 43, the first wiping bracket 41 is disposed on the chassis 1, both ends of the first wiping shaft 42 are respectively mounted on the first wiping bracket 41 through the first buffer structure 43, and the first wiping shaft 42 is used for supporting the wiping cloth 100.

Specifically, the first wiping shaft 42 for supporting the wiping cloth 100 is arranged on the first buffer structure 43, so that the wiping cloth 100 is in flexible contact with the spray head in the process of cleaning the spray head, the extrusion force of the wiping shaft on the spray head in the cleaning process is prevented from being too large or even collision, and the spray head is protected.

In the specific implementation process, as shown in fig. 3, the first wiping shaft 42 includes a first inner shaft 421, a first outer shaft 422 and a first bearing 423, two ends of the first inner shaft 421 are respectively mounted on the first wiping bracket 41 through a first buffer structure 43, the first outer shaft 422 is sleeved on the periphery of the first inner shaft 421, and the first outer shaft 422 and the first inner shaft 421 are rotatably connected through the first bearing 423.

In one embodiment, as shown in fig. 3, the first buffer structure 43 includes a first support bolt 431 and a first support spring 432, the first support bolt 431 is fixed on the first wiping bracket 41, the first support spring 432 is sleeved on the periphery of the first support bolt 431, the end portion of the first wiping shaft 42 is sleeved on the periphery of the first support bolt 431, the first wiping shaft 42 is abutted against the upper end of the first support spring 432, and the first wiping shaft 42 can move along the axial direction of the first support bolt 431.

Specifically, by slidably disposing the first wiping shaft 42 on the first supporting bolt 431, the first supporting bolt 431 not only realizes assembly and fixation of the first wiping shaft 42, but also realizes movement guiding control of the first supporting shaft, which is beneficial to simplifying the overall structure and making the first buffer structure 43 more compact.

In the specific implementation process, as shown in fig. 2 and 3, the first support bolt 431 is disposed above the first wiping bracket 41, the lower end of the first support spring 432 abuts against the first wiping bracket 41, the upper end of the first support spring 432 abuts against the first wiping shaft 42, and the first support spring 432 can lift the first wiping shaft 42 upward.

In one embodiment, as shown in fig. 1 to 4, a guide groove 13 is provided on the frame 1, and the guide groove 13 extends in the same direction as the axis of the first support bolt 431, and the first wiping shaft 42 is inserted into the guide groove 13 and slidably coupled with the guide groove 13.

Specifically, by providing the guide groove 13, the stability of the movement of the first wiping shaft 42 can be improved, the vibration of the first wiping shaft 42 in the movement process can be reduced, the stability of the contact between the wiping cloth 100 and the spray head can be improved, and the risk of damaging the spray head in the cleaning process can be reduced.

In a specific implementation, the axis of the first support bolt 431 is disposed vertically, and the guide groove 13 extends in a vertical direction.

In the specific implementation process, as shown in fig. 1, the rack 1 includes a main frame plate 11 and an auxiliary frame plate 12, the upper end of the main frame plate 11 and the auxiliary frame plate 12 enclose to form an accommodating space, the first wiping component 4 and the humidifying nozzle 51 are arranged in the accommodating space, the main frame plate 11 and the auxiliary frame plate 12 are respectively provided with a guide groove 13, one end of the first wiping shaft 42 is inserted into the guide groove 13 of the main frame plate 11, and the other end of the first wiping shaft 42 is inserted into the guide groove 13 of the auxiliary frame plate 12. Further, the upper end of the guide groove 13 is of an open structure, which can improve the ease of mounting and dismounting the first wiping shaft 42.

In one embodiment, as shown in fig. 2, the first wiping component 4 and the humidifying nozzle 51 are horizontally arranged at intervals, the nozzle cleaning device further comprises a collecting tray 7, the collecting tray 7 is arranged on the frame 1, and the collecting tray 7 is located below the first wiping component 4 and the humidifying nozzle 51.

Specifically, by providing the collecting tray 7 below the first wiping member 4 and the humidifying nozzle 51, water used for humidification and ink dropped on the nozzle can be collected, so that the liquids are prevented from contaminating other parts, particularly the unused wiping cloth 100, and the cleanliness of the unused wiping cloth 100 is effectively ensured.

In one embodiment, as shown in fig. 2 and 4, the collecting tray 7 includes a tray body 71 and a drain connector 72, the tray body 71 is located below the first wiper member 4 and the humidifying nozzle 51, one end of the drain connector 72 is connected with the bottom of the tray body 71, the other end of the drain connector 72 penetrates the frame 1 and extends to a side of the frame 1 away from the tray body 71, and one end of the drain connector 72 away from the tray body 71 is used for connection with an external waste liquid recovery tank. Through with the liquid discharging connector 72 extend to the frame 1 and keep away from one side of dish body 71, can keep apart the waste liquid recycling bin that liquid discharging connector 72 is connected and humidification shower nozzle 51, unreel subassembly 2, rolling subassembly 3, first wiping subassembly 4 isotructure, avoid waste liquid recycling bin to interfere with these structures, and then make overall structure's functional partitioning more obvious, be favorable to improving this shower nozzle belt cleaning device's operational reliability. In the specific implementation process, the disc body 71 is located in the accommodating space formed by surrounding the upper end of the main frame plate 11 and the auxiliary frame plate 12.

In one embodiment, the outlet direction of the humidifying nozzle 51 is downward and the outlet direction is inclined toward the side near the first wiper member 4. Specifically, the water outlet direction of the humidifying nozzle 51 is set to be inclined downwards towards the side close to the first wiping component 4, so that not only can the wiping cloth 100 be more fully wetted by the humidified liquid, but also the redundant liquid can be better prevented from being scattered everywhere, and further, the redundant liquid can be better recovered by the collecting tray 7. Further, the angle between the water outlet direction of the humidifying nozzle 51 and the vertical direction is 30 degrees to 45 degrees.

In one embodiment, as shown in fig. 2 and 4, the humidifying nozzle 51 includes a nozzle 511 and a humidifying pipe 512, the nozzle 511 is mounted on the frame 1 through the humidifying pipe 512, the nozzle cleaning device further includes a humidifying adapter 52, the humidifying adapter 52 is disposed on a side of the frame 1 away from the humidifying nozzle 51, the humidifying adapter 52 is communicated with the nozzle 511 through the humidifying pipe 512, and the humidifying adapter 52 is used for connecting an external water source.

Specifically, humidification shower nozzle 51, unreel subassembly 2, rolling subassembly 3 and first wiping subassembly 4 are located the same one side of frame 1, through setting up humidification joint 52 and humidification shower nozzle 51 in the both sides of frame 1, can keep apart the water pipe that humidification joint 52 connects and structures such as humidification shower nozzle 51, unreel subassembly 2, rolling subassembly 3, first wiping subassembly 4, avoid the water pipe to interfere with these structures, and then make overall structure's functional partitioning more obvious, be favorable to improving this shower nozzle belt cleaning device's operational reliability.

In one embodiment, as shown in fig. 1 and 2, the spray head cleaning device further includes a cloth sensing assembly 8, wherein the cloth sensing assembly 8 is disposed on the rack 1, and the cloth sensing assembly 8 is used for detecting whether the wiping cloth 100 on the unreeling assembly 2 or the reeling assembly 3 is wound to a preset position.

Specifically, in the case where the cloth sensing assembly 8 is used to detect the wipe 100 on the rolling assembly 3, when the cloth sensing assembly 8 detects the wipe 100, indicating that the rolling assembly 3 is full, further indicating that the unrolling assembly 2 is empty, a new roll of the wipe 100 needs to be placed on the unrolling assembly 2 and the used wipe 100 on the rolling assembly 3 is discharged. Accordingly, in the case where the cloth sensing assembly 8 is used to detect the wipe 100 on the unwind assembly 2, when the cloth sensing assembly 8 fails to detect the wipe 100, indicating that the unwind assembly 2 is empty, further indicating that the wind-up assembly 3 is full, a new roll of the wipe 100 needs to be placed on the unwind assembly 2 and the used wipe 100 on the wind-up assembly 3 is discharged.

In a specific implementation process, as shown in fig. 1, the cloth sensing assembly 8 includes a fixing bracket 81 and a sensor 82, and the sensor 82 is installed on the frame 1 through the fixing bracket 81, and further, the fixing bracket 81 is disposed at the bottom of the frame 1.

In one embodiment, as shown in fig. 5, the spray head cleaning device further includes a second wiping component 9, the second wiping component 9 is disposed at the upper end of the frame 1, and the second wiping component 9 is disposed at a horizontal interval from the first wiping component 4, and the wiping cloth 100 extends from the unreeling component 2 to the reeling component 3 sequentially through the first wiping component 4 and the second wiping component 9, and the second wiping component 9 is used for supporting the wiping cloth 100 and making the wiping cloth 100 contact with the spray head.

Specifically, by providing the second wiping component 9, and using the same set of unreeling component 2 and reeling component 3 for the first wiping component 4 and the second wiping component 9, the wiping cloth 100 on the second wiping component 9 is used once, so that in the cleaning process, the nozzle is firstly cleaned initially by using the second wiping component 9, then the nozzle after being cleaned initially is moved to the first wiping component 4, and then the nozzle is cleaned finally by using the first wiping component 4. The design can fully utilize the slightly polluted wiping cloth 100, can divide the cleaning of the spray heads into two stages, and can clean the two spray heads at the same time, so that the overall cleaning efficiency is improved.

In particular embodiments, the second wiper member 9 is configured identically to the first wiper member 4.

The method comprises the following steps:

in one embodiment, as shown in fig. 5 and 6, the second wiping assembly 9 includes a second wiping bracket 91, a second wiping shaft 92, and a second buffer structure 93, the second wiping bracket 91 is disposed on the chassis 1, both ends of the second wiping shaft 92 are respectively mounted on the second wiping bracket 91 through the second buffer structure 93, and the second wiping shaft 92 is used for supporting the wiping cloth 100. Specifically, the second wiping shaft 92 for supporting the wiping cloth 100 is arranged on the second buffer structure 93, so that the wiping cloth 100 is in flexible contact with the spray head in the process of cleaning the spray head, the extrusion force of the wiping shaft on the spray head in the cleaning process is prevented from being too large or even collision, and the spray head is protected.

In one embodiment, as shown in fig. 5 and 6, the second wiping shaft 92 includes a second inner shaft 921, a second outer shaft 922 and a second bearing 923, both ends of the second inner shaft 921 are respectively mounted on the second wiping bracket 91 through second buffer structures 93, the second outer shaft 922 is sleeved on the peripheral portion of the second inner shaft 921, and the second outer shaft 922 is rotatably connected with the second inner shaft 921 through the second bearing 923.

In one embodiment, as shown in fig. 5 and 6, the second buffer structure 93 includes a second support bolt 931 and a second support spring 932, the second support bolt 931 is fixed on the second wiping bracket 91, the second support spring 932 is sleeved on the periphery of the second support bolt 931, the end portion of the second wiping shaft 92 is sleeved on the periphery of the second support bolt 931, and the second wiping shaft 92 abuts against the upper end of the second support spring 932, and the second wiping shaft 92 is movable along the axial direction of the second support bolt 931. Specifically, by slidably disposing the second wiping shaft 92 on the second support bolt 931, the second support bolt 931 not only realizes the assembly and fixation of the second wiping shaft 92, but also realizes the movement guiding control of the second support shaft, which is advantageous in simplifying the overall structure and making the second buffer structure 93 more compact.

In one embodiment, as shown in fig. 5 and 6, the second support bolt 931 is disposed above the second wiping bracket 91, the lower end of the second support spring 932 is abutted against the second wiping bracket 91, the upper end of the second support spring 932 is abutted against the second wiping shaft 92, and the second support spring 932 is capable of lifting up the second wiping shaft 92.

In one embodiment, as shown in fig. 5, the shower head cleaning apparatus further includes a rinse shower head 53, the rinse shower head 53 being disposed on the chassis 1, and the rinse shower head 53 being located between the first wiper member 4 and the second wiper member 9, the rinse shower head 53 being configured to rinse the wiper 100 between the first wiper member 4 and the second wiper member 9.

Specifically, by providing the rinse spray head 53, the wipe 100 that has undergone a slight contamination of one use can be rinsed to flush off ink or ink residue from the wipe 100, thereby improving the cleanliness of the wipe 100 used at the second wiper assembly 9. In a specific use process, only one of the first wiping component 4 and the second wiping component 9 can be used, namely, the spray head is only cleaned at the first wiping component 4 or the second wiping component 9, and in the use state, the spray head cleaning device with the two wiping components is not different from the spray head cleaning device with the first wiping component 4, and the use effect is the same.

In the specific implementation process, as shown in fig. 5, the collecting tray 7 extends below the rinsing nozzle 53 and the second wiping component 9, that is, the collecting tray 7 can collect the water used for rinsing the wiping cloth 100 and the ink dropped on the nozzle, so as to prevent the liquid from polluting other parts, particularly prevent the liquid from polluting the unused wiping cloth 100, and further effectively ensure the cleanliness of the unused wiping cloth 100.

The foregoing description of the preferred embodiments of the present application is not intended to be limiting, but is intended to cover any and all modifications, equivalents, and alternatives falling within the spirit and principles of the present application.

Claims (10)

1. A shower nozzle cleaning device, characterized by comprising:

a frame;

the unreeling assembly is arranged on the rack and is used for mounting the wiping cloth to be used;

the rolling component is arranged on the rack and is used for recycling the used wiping cloth;

a first wiper assembly disposed at an upper end of the housing, the wiper extending from the unwind assembly through the first wiper assembly to the wind-up assembly, the first wiper assembly for supporting the wiper and contacting the wiper with a spray head;

the humidifying sprayer is arranged on the frame and can spray water towards the wiping cloth between the unreeling component and the first wiping component.

2. The spray head cleaning device of claim 1, wherein the first wiping assembly comprises a first wiping bracket, a first wiping shaft and a first buffer structure, the first wiping bracket is arranged on the frame, two ends of the first wiping shaft are respectively arranged on the first wiping bracket through the first buffer structure, and the first wiping shaft is used for supporting the wiping cloth.

3. The head cleaning device according to claim 2, wherein the first buffer structure includes a first support bolt and a first support spring, the first support bolt is fixed to the first wiping bracket, the first support spring is sleeved on the periphery of the first support bolt, the end portion of the first wiping shaft is sleeved on the periphery of the first support bolt, the first wiping shaft is abutted against the upper end of the first support spring, and the first wiping shaft can move along the axial direction of the first support bolt.

4. The head cleaning device according to claim 3, wherein a guide groove is provided in the frame, the extending direction of the guide groove is the same as the axial direction of the first support bolt, and the first wiping shaft is inserted into the guide groove and slidably connected with the guide groove.

5. The spray head cleaning device of claim 1, wherein the first wiper assembly and the humidifying spray head are horizontally spaced apart, the spray head cleaning device further comprising a collection tray disposed on the frame, and the collection tray is positioned below the first wiper assembly and the humidifying spray head.

6. The spray head cleaning device of claim 2, wherein the outlet direction of the humidifying spray head is downward and the outlet direction is inclined toward a side near the first wiping member.

7. The spray head cleaning device of claim 1, wherein the humidifying spray head comprises a nozzle and a humidifying pipe, the nozzle is mounted on the frame through the humidifying pipe, the spray head cleaning device further comprises a humidifying joint, the humidifying joint is arranged on one side of the frame away from the humidifying spray head, the humidifying joint is communicated with the nozzle through the humidifying pipe, and the humidifying joint is used for being connected with an external water source.

8. The spray head cleaning device of claim 1, further comprising a cloth sensing assembly disposed on the frame, the cloth sensing assembly configured to detect whether the wipe on the unwind assembly or the wind-up assembly is wound to a predetermined position.

9. The spray head cleaning device of any one of claims 1 to 8 further comprising a second wiper assembly disposed at an upper end of said frame and spaced horizontally from said first wiper assembly, said wiper extending from said unwind assembly to said wind-up assembly sequentially past said first wiper assembly and said second wiper assembly for supporting said wiper and contacting said wiper with a spray head.

10. The spray head cleaning device of claim 9 further comprising a rinse spray head disposed on said frame and between said first wiper assembly and said second wiper assembly, said rinse spray head for rinsing said wiping cloth between said first wiper assembly and said second wiper assembly.