A slagging and deodorizing device for wet wipe processing and production

Abstract

The application discloses a slag discharging and odor removing equipment for wet tissue processing and production, which comprises a processing box on a wet tissue processing production line, the processing box is provided with a first chamber and a second chamber through a partition plate, and a sealing door is arranged on the processing box; an air supply assembly is arranged on the processing box and located in the first chamber; a plurality of first conveying rollers are arranged in the first chamber, one end of each of the plurality of first conveying rollers is connected with a conveying assembly, and a same connecting assembly is connected with the plurality of conveying assemblies. In the application, the device can remove odor of the wet tissue roll, clean impurities on the wet tissue roll, and the first conveying roller is provided with an air outlet, so that the first conveying roller can generate gas, the odor removing effect of the wet tissue roll is further improved, the yield of the wet tissue roll is improved, and the processing effect of the device is further improved.

Description

Technical Field

[0001] This invention relates to the field of wet wipe processing and production equipment technology, and more specifically, to a slag removal and deodorization device for wet wipe processing and production. Background Technology

[0002] Wet wipes are used to moisturize the skin. Wet wipes on the market can be broadly divided into two categories: one type is sterilized but cannot disinfect other items; it contains skin-care ingredients and is only for moisturizing the skin. The other type is disinfecting wet wipes, which are not only sterilized themselves but also disinfect other items; they can be used to disinfect or sterilize cuts, scratches, etc. When purchasing wet wipes, be sure to check their intended function.

[0003] In the production of wet wipes, the wipes need to be spread out on a cloth for initial saturation, followed by descaling and deodorization. However, existing descaling and deodorization equipment has the following problems: it only removes odors by blowing air and uses a brush to remove impurities. This method of descaling and deodorization is ineffective, further affecting the yield of wet wipes and indirectly reducing the manufacturer's production efficiency.

[0004] Therefore, we propose a slag removal and odor removal device for wet wipe processing to solve the above problems. Summary of the Invention

[0005] In order to overcome the above-mentioned defects of the prior art, embodiments of the present invention provide a slag removal and deodorization device for wet wipe processing and production, so as to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a slag removal and deodorization device for wet wipe processing production, comprising a processing box located on a wet wipe processing production line, the processing box having a first chamber and a second chamber separated by a partition, and a sealing door on the processing box; an air supply assembly on the processing box, the air supply assembly being located in the first chamber; multiple first conveying rollers being provided in the first chamber, one end of each of the multiple first conveying rollers being connected to a conveying assembly, and the multiple conveying assemblies being connected to the same connecting assembly; a lifting assembly being connected to the side wall of the first chamber; and a second chamber being provided with... The system includes multiple second conveyor rollers. A wet wipe roll is located within the processing chamber, with one end of the wet wipe roll passing sequentially through the surfaces of multiple first and second conveyor rollers and extending to the outside of the processing chamber. A rotating assembly is connected to the processing chamber, with one end of the rotating assembly connected to an air supply assembly. A collecting assembly is located in the second chamber, positioned on both sides of the wet wipe roll. An air jet assembly is connected to the second chamber, positioned above the collecting assembly, with one end of the air jet assembly connected to the rotating assembly. A cleaning assembly is also located in the second chamber, with one end of the cleaning assembly connected to the rotating assembly.

[0007] This device can deodorize and remove impurities from wet wipes. The first conveyor roller sprays gas, accelerating the deodorization process. The wet wipes move up and down with the assistance of a lifting rod, ensuring more thorough contact between the wipes and the gas, thus facilitating more complete deodorization. Simultaneously, the device cleans the wet wipes using air jets and a cleaning roller. The use of filtered gas to drive the cleaning roller further improves resource utilization.

[0008] In a preferred embodiment, the gas supply assembly includes a heating box fixedly connected to the lower end of the processing box, an air pipe fixedly connected to an external gas source at the input end of the heating box, a filter box extending through the upper end of the processing box, an activated carbon plate inserted in the filter box, and a first air outlet pipe fixedly connected to the output end of the activated carbon plate.

[0009] When an external air source enters the first chamber, it can cause the odor on the wet wipes to be released. The released gas can be filtered through an activated carbon plate, thus deodorizing the wet wipes.

[0010] In a preferred embodiment, the conveying assembly includes a connecting pipe connected to a first conveying roller, a sleeve fitted onto the connecting pipe, the sleeve being connected to the connecting pipe, a sealed bearing being provided at the connection between the sleeve and the connecting pipe, a fixing rod being fixedly connected to the sleeve and fixedly connected to the side wall of the processing box, and the sleeve being connected to an air pipe of an external air source.

[0011] With the assistance of the sleeve, external air can be delivered from the first conveyor roller, which allows the wet wipe roll to make more sufficient contact with the first conveyor roller, further accelerating the deodorization efficiency of the wet wipe roll and indirectly improving the processing efficiency of the device.

[0012] In a preferred embodiment, the connecting assembly includes two horizontal tubes disposed between multiple sleeves, the two horizontal tubes being connected to the multiple sleeves respectively, and a vertical tube being disposed between the two horizontal tubes. The output end of one of the horizontal tubes is fixedly connected to two bent tubes. The lifting assembly includes a guide rail fixedly connected to the inner side wall of the first chamber, a guide block slidably connected to the guide rail, and a lifting rod rotatably connected to the guide block. One end of the lifting rod extends below the wet wipe roll. A rotating box is fixedly connected to the side wall of the processing box, and a rotating rod is rotatably connected inside the rotating box. One end of the rotating rod passes through the side wall of the processing box and extends into the interior. A cam is sleeved on the rotating rod, and the cam is located below the guide block. The output end of the bent tube is connected to the rotating box.

[0013] With the assistance of the horizontal tube and the bending tube, the vortex fan blades in the rotating box can rotate, which in turn makes the cam rotate, causing the guide block to move up and down. This allows the wet wipe roll to "breathe," enabling it to come into more thorough contact with the gas and accelerating the deodorizing efficiency of the wet wipe roll.

[0014] In a preferred embodiment, the rotating assembly includes a connecting box fixedly connected to the upper end of the processing chamber. The connecting box contains a partition. Two bearing seats are fixedly connected to the inner bottom of the connecting box. A common rotating rod passes through the two bearing seats. First vortex fan blades are fixedly connected to both ends of the rotating rod. A first conveying pipe is fixedly connected to the input end of the connecting box, and a second conveying pipe is fixedly connected to the input end of the connecting box. The first and second conveying pipes are respectively positioned above the two first vortex fan blades. The jet assembly includes a conveying box fixedly connected to the side wall of the processing chamber. An input pipe is fixedly connected to the input end of the conveying box, one end of which is connected to the connecting box. Two second exhaust pipes extending into the processing chamber are fixedly connected to the output end of the conveying box. The two second exhaust pipes are respectively positioned above two inclined plates, and multiple nozzles are fixedly connected to the output ends of the two second exhaust pipes.

[0015] When the gas treated with activated carbon is blown onto the first vortex fan blade, the rotating rod rotates accordingly, which in turn rotates the other first vortex fan blade. This allows external gas to enter the connecting box, and the gas in the connecting box to enter the conveying box. The gas is then sprayed out from the nozzle, thus cleaning the impurities on the wet wipe roll.

[0016] In a preferred embodiment, the collection assembly includes two delivery ports disposed on the side wall of the second chamber, and inclined plates facing upward are fixedly connected to the side walls of the two delivery ports. A collection box is fixedly connected to the side wall of the processing box, and the output ends of the two inclined plates are located inside the collection box.

[0017] When the nozzle sprays gas, it causes impurities on the wet wipe roll to fall onto the inclined plate. The inclined plate allows the impurities to enter the collection box, making it easier for staff to clean the impurities from the wet wipe roll.

[0018] In a preferred embodiment, the cleaning assembly includes a transition box fixedly connected to the side wall of the processing box. Two cleaning rollers are provided through the transition box, with one end of each cleaning roller passing through the side wall of the processing box and extending into the interior. The two cleaning rollers are respectively located on both sides of the wet wipe roll. Each of the two cleaning rollers is connected to a second vortex fan blade, which is located in the transition box. The input ends of the two transition boxes are fixedly connected to a third conveying pipe, with one end of each third conveying pipe connected to a connecting box.

[0019] After the gas treated with activated carbon is discharged from the connecting box, it enters the transition box, which causes the second vortex fan blade to rotate, thereby causing the cleaning roller to rotate. This removes impurities from the wet wipe roll and indirectly improves the yield of the wet wipe roll.

[0020] The technical effects and advantages of this invention are as follows:

[0021] 1. This device can deodorize wet wipe rolls and clean impurities from them. The first conveyor roller has an air vent, which generates gas, further enhancing the deodorization effect and improving the yield rate of wet wipe rolls. This improves the overall processing efficiency of the device and indirectly increases its practicality.

[0022] 2. This device allows the wet wipe roll to "breathe," thereby improving the contact between the wet wipe roll and the gas, further enhancing the deodorizing effect of the device and indirectly improving its practicality.

[0023] 3. This device can reuse the treated gas, thereby maximizing resource utilization. The external gas is sprayed out from the nozzle, and with the assistance of the inclined plate, the impurities on the wet wipe rolls can be further discharged into the collection box. At the same time, the cleaning roller can also rotate, thus cleaning the impurities on the wet wipe rolls, thereby improving the yield of wet wipe rolls and indirectly improving the practicality of the device. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the structure of the present invention;

[0025] Figure 2 This is a first-view structural diagram of the present invention;

[0026] Figure 3 This is a schematic diagram of the second perspective structure of the present invention;

[0027] Figure 4 This is a schematic diagram of the connection structure between the conveying component and the first conveying roller in this invention;

[0028] Figure 5 This is a schematic diagram of the connection structure between the connecting component and the lifting component in this invention;

[0029] Figure 6 This is a schematic diagram of a partial connection structure in this invention;

[0030] Figure 7 This is a schematic diagram of the internal structure of the connecting box in this invention;

[0031] Figure 8 This is a schematic diagram of the connection structure between the jet assembly and the transition box in this invention;

[0032] Figure 9 This is a schematic diagram of the connection structure of the transition box in this invention.

[0033] The attached figures are labeled as follows: 1. Processing box; 2. Divider plate; 3. First chamber; 4. Second chamber; 5. Sealing door; 6. First conveyor roller; 7. Second conveyor roller; 8. Wet wipe roll; 9. Heating box; 10. Filter box; 11. Activated carbon plate; 12. First air outlet pipe; 13. Connecting pipe; 14. Sleeve; 15. Sealed bearing; 16. Fixing rod; 17. Connecting pipe; 18. Vertical pipe; 19. Bending pipe; 20. Lifting rod; 21. Guide rail; 22. Guide block; 23. Rotating box; 24. Rotating rod; 25. Cam; 26. Connecting box; 27. Divider plate; 28. Bearing seat; 29. ​​Rotating rod; 30. First vortex fan blade; 31. First conveying pipe; 32. Second conveying pipe; 33. Conveying port; 34. Inclined plate; 35. Collection box; 36. Conveying box; 37. Input pipe; 38. Second air outlet pipe; 39. Nozzle; 40. Transition box; 41. Cleaning roller; 42. Second vortex fan blade; 43. Third conveying pipe. Detailed Implementation

[0034] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0035] Example 1:

[0036] Reference Figure 1-4 A slag removal and deodorization device for wet wipe processing includes a processing box 1 located on a wet wipe processing production line. The processing box 1 is located on the wet wipe processing production line, thereby enabling the processing of wet wipes. At the same time, the wet wipes can be wound up with the assistance of a winding device. The processing box 1 is provided with a first chamber 3 and a second chamber 4 through a partition plate 2. The processing box 1 is provided with a sealing door 5. It is particularly noteworthy that the sealing door 5 is provided with glass, which further facilitates the staff to observe the internal situation. At the same time, the sealing door 5 can be opened, so that the staff can conveniently place the wet wipe rolls.

[0037] The processing box 1 is equipped with an air supply assembly located in the first chamber 3. The first chamber 3 is equipped with multiple first conveyor rollers 6, and it is particularly noteworthy that the first conveyor rollers 6 are provided with through holes so that gas can be ejected. One end of each of the multiple first conveyor rollers 6 is connected to a conveying assembly, and the multiple conveying assemblies are connected to the same connecting assembly. A lifting assembly is connected to the side wall of the first chamber 3. The second chamber 4 is equipped with multiple second conveyor rollers 7. The processing box 1 is equipped with a wet wipe roll 8, and one end of the wet wipe roll 8 passes through the surface of the multiple first conveyor rollers 6 and the second conveyor rollers 7 in sequence and extends to the outside of the processing box 1.

[0038] Reference Figure 1-4 The processing box 1 is connected to a rotating component, one end of which is connected to an air supply component; the second chamber 4 is equipped with a collection component, which is located on both sides of the wet wipe roll 8; the second chamber 4 is connected to an air jet component, which is located above the collection component, and one end of the air jet component is connected to the rotating component; the second chamber 4 is equipped with a cleaning component, one end of which is connected to the rotating component.

[0039] Reference Figure 1-4 The gas supply assembly includes a heating box 9 fixedly connected to the lower end of the processing box 1. Notably, the heating box 9 is equipped with an electric heating wire. When the gas passes through the electric heating wire, it is heated, thereby improving the deodorization efficiency. The input end of the heating box 9 is fixedly connected to a gas pipe connected to an external gas source. A filter box 10 is installed through the upper end of the processing box 1. An activated carbon plate 11 is inserted into the filter box 10. The output end of the activated carbon plate 11 is fixedly connected to a first gas outlet pipe 12. The insertion of the activated carbon plate 11 allows the staff to easily replace the activated carbon plate 11. At the same time, the first gas outlet pipe 12 can discharge the gas treated by the activated carbon plate 11 to the outside.

[0040] When the external air pump is working, gas is introduced into the heating chamber 9. At the same time, the electric heating wire in the heating chamber 9 is activated, which heats the gas and allows it to enter the first chamber 3. This allows the odor on the wet wipes to be expelled with the gas. The gas then enters the filter chamber 10, where it is filtered by the activated carbon plate 11. Finally, the gas is discharged from the first air outlet 12, thus deodorizing the wet wipes.

[0041] Example 2:

[0042] Reference Figure 4 The conveying assembly includes a connecting pipe 13 connected to the first conveying roller 6. A sleeve 14 is fitted onto the connecting pipe 13, and the sleeve 14 is connected to the connecting pipe 13. It is particularly noteworthy that the connecting pipe 13 is connected to the first conveying roller 6, and the connecting pipe 13 is provided with a through hole. At the same time, the gas in the sleeve 14 can enter the connecting pipe 13 through the through hole. The first conveying roller 6 is provided with an air outlet, so that the gas can be discharged normally. A sealed bearing 15 is provided at the connection between the sleeve 14 and the connecting pipe 13. A fixing rod 16 is fixedly connected to the sleeve 14 and fixedly connected to the side wall of the processing box 1. The fixing rod 16 has a stabilizing function. The sleeve 14 is connected to the air pipe of the external air source.

[0043] When external gas enters the sleeve 14 through the air pump, the gas then enters the connecting pipe 13, allowing the gas to enter the first conveyor roller 6. This enables the first conveyor roller 6 to spray gas while rotating, thereby improving the deodorizing efficiency of the wet wipe roll.

[0044] Example 3:

[0045] Reference Figure 4 and Figure 5The lifting assembly includes a guide rail 21 fixedly connected to the inner wall of the first chamber 3. A guide block 22 is slidably connected to the guide rail 21. Notably, the lower end of the guide block 22 is arc-shaped, so when the cam 25 contacts the guide block 22, the guide block 22 can move up and down accordingly. A lifting rod 20 is rotatably connected to the guide block 22, and one end of the lifting rod 20 extends below the wet wipe roll 8. A rotating box 23 is fixedly connected to the side wall of the processing box 1. Notably, the rotating box 23... The rod 24 is equipped with a vortex fan blade, which is located in the rotating box 23. Gas can enter the rotating box 23 from the bent tube 19, which can make the vortex fan blade rotate, thereby making the rotating rod 24 rotate. The rotating rod 24 is rotatably connected inside the rotating box 23. One end of the rotating rod 24 passes through the side wall of the processing box 1 and extends into the interior. A cam 25 is sleeved on the rotating rod 24. The cam 25 is located below the guide block 22. The output end of the bent tube 19 is connected to the rotating box 23.

[0046] Of particular note is that, with the assistance of the bent tube 19, the gas can enter the rotating box 23. Since the rotating box 23 is equipped with vortex fan blades, the vortex fan blades can rotate, thereby causing the rotating rod 24 to rotate, which in turn causes the cam 25 to rotate. This causes the guide block 22 to move upward, which in turn causes the lifting rod 20 to move upward. This allows the wet wipe roll 8 to "breathe," thus improving the deodorizing effect of the wet wipe roll.

[0047] Example 4:

[0048] Reference Figure 6 , Figure 7 and Figure 8 The rotating assembly includes a connecting box 26 fixedly connected to the upper end of the processing box 1. A partition 27 is provided inside the connecting box 26. Two bearing seats 28 are fixedly connected to the inner bottom of the connecting box 26. A single rotating rod 29 passes through the two bearing seats 28. With the assistance of the bearing seats 28 and the partition 27, the stability of the rotating rod 29 is improved. Simultaneously, with the assistance of the partition 27, the cavities on the left and right sides are prevented from being affected. First vortex fan blades 30 are fixedly connected to both ends of the rotating rod 29. A first conveying pipe 31 is fixedly connected to the input end of the connecting box 26. The input end is fixedly connected to a second conveying pipe 32. The first conveying pipe 31 and the second conveying pipe 31 are respectively located above the two first vortex fan blades 30. The first conveying pipe 31 is connected to the first exhaust pipe 12, so that gas can enter the connecting box 26 and be sprayed onto the first vortex fan blade 30, which can cause the other first vortex fan blade 30 to rotate. Furthermore, external gas can enter the connecting box 26 from the second conveying pipe 32, and then the gas is discharged from the connecting box 26, so that the gas can enter the conveying box 36.

[0049] Reference Figure 8 The jet assembly includes a delivery box 36 fixedly connected to the side wall of the processing box 1. An input pipe 37 is fixedly connected to the input end of the delivery box 36. One end of the input pipe 37 is connected to the connection box 26. Two second air outlet pipes 38 extending into the processing box 1 are fixedly connected to the output end of the delivery box 36. The two second air outlet pipes 38 are respectively located above two inclined plates 34. Multiple nozzles 39 are fixedly connected to the output ends of the two second air outlet pipes 38.

[0050] Reference Figure 6 The collection component includes two conveying ports 33 located on the side wall of the second chamber 4. An upward-facing inclined plate 34 is fixedly connected to the side wall of each of the two conveying ports 33. A collection box 35 is fixedly connected to the side wall of the processing box 1. It is particularly noteworthy that the lower end of the collection box 35 is fitted with a cover. The staff can then open the cover to facilitate the cleaning of impurities in the collection box 35. The output ends of the two inclined plates 34 are located inside the collection box 35.

[0051] With the assistance of the first exhaust pipe 12, the filtered gas enters the first conveying pipe 31, which blows the gas towards the first vortex fan blade 30. This causes the rotating rod 29 to rotate, which in turn causes the other first vortex fan blade 30 to rotate. This allows external gas to enter the connecting box 26 through the second conveying pipe 32, and then into the conveying box 36. With the assistance of the second exhaust pipe 38, the gas is sprayed out from the nozzle 39, which cleans the wet wipe roll. The cleaned impurities fall onto the inclined plate 34, and with the assistance of the inclined plate 34, they fall into the collection box 35. The staff can then periodically clean the impurities in the collection box 35, which facilitates the staff's work and indirectly improves the staff's work efficiency.

[0052] Example 5:

[0053] Reference Figure 9 The cleaning assembly includes a transition box 40 fixedly connected to the side wall of the processing box 1. Two cleaning rollers 41 are installed through the transition box 40. The structure of the cleaning rollers 41 is similar to that of the cleaning roller in the prior art document CN213967902U, a slag removal and deodorization device for wet wipe production, so that the wet wipe roll can be cleaned. One end of the two cleaning rollers 41 passes through the side wall of the processing box and extends into the interior. The two cleaning rollers 41 are respectively located on both sides of the wet wipe roll 8. A second vortex fan blade 42 is connected to each of the two cleaning rollers 41. The two second vortex fan blades 42 are respectively located in the transition box 40. A third conveying pipe 43 is fixedly connected to the input end of each of the two transition boxes 40. One end of each of the two third conveying pipes 43 is connected to the connecting box 26.

[0054] Of particular note is that when the first conveying pipe 31 enters the connecting box 26 and the gas is discharged, the gas can then enter the transition box 40, which can blow the gas into the second vortex fan blade 42, thereby causing the cleaning roller 41 to rotate, thus cleaning the wet wipe roll 8 and indirectly improving the yield of the wet wipe roll 8.

Claims

1. A slag removal and deodorization device for wet wipe processing and production, comprising a processing box (1) located on a wet wipe processing production line, characterized in that; The processing box (1) is provided with a first chamber (3) and a second chamber (4) through a partition plate (2), and the processing box (1) is provided with a sealing door (5); The processing box (1) is equipped with an air supply assembly, which is located in the first chamber (3); The first chamber (3) is provided with multiple first conveying rollers (6), one end of each of the multiple first conveying rollers (6) is connected to a conveying component, and the multiple conveying components are connected to the same connecting component; A lifting assembly is connected to the side wall of the first chamber (3); The second chamber (4) is provided with multiple second conveyor rollers (7), and the processing box (1) is provided with a wet wipe roll (8). One end of the wet wipe roll (8) passes through the surfaces of multiple first conveyor rollers (6) and second conveyor rollers (7) in sequence and extends to the outside of the processing box (1). A rotating assembly is connected to the processing box (1), and one end of the rotating assembly is connected to the air supply assembly; The second chamber (4) is provided with a collection component, and the collection component is located on both sides of the wet wipe roll (8); The second chamber (4) is connected to a jet assembly, which is located above the collection assembly, and one end of the jet assembly is connected to the rotating assembly; The second chamber (4) is provided with a cleaning assembly, one end of which is connected to the rotating assembly; The gas supply assembly includes a heating box (9) fixedly connected to the lower end of the processing box (1). The input end of the heating box (9) is fixedly connected to an air pipe connected to an external gas source. A filter box (10) is provided through the upper end of the processing box (1). An activated carbon plate (11) is inserted in the filter box (10). The output end of the activated carbon plate (11) is fixedly connected to a first gas outlet pipe (12). The conveying assembly includes a connecting pipe (13) connected to the first conveying roller (6), a sleeve (14) is sleeved on the connecting pipe (13), the sleeve (14) is connected to the connecting pipe (13), a sealed bearing (15) is provided at the connection between the sleeve (14) and the connecting pipe (13), a fixing rod (16) fixedly connected to the side wall of the processing box (1) is fixedly connected to the sleeve (14), and the sleeve (14) is connected to the air pipe of the external air source. The first conveyor roller (6) is provided with an air outlet; The rotating assembly includes a connecting box (26) fixedly connected to the upper end of the processing box (1). The connecting box (26) is provided with a partition (27). Two bearing seats (28) are fixedly connected to the inner bottom of the connecting box (26). The same rotating rod (29) is provided through the two bearing seats (28). The two ends of the rotating rod (29) are fixedly connected to a first vortex fan blade (30). The input end of the connecting box (26) is fixedly connected to a first conveying pipe (31). The input end of the connecting box (26) is fixedly connected to a second conveying pipe (32). The first conveying pipe (31) and the second conveying pipe (32) are respectively located above the two first vortex fan blades (30). The jet assembly includes a delivery box (36) fixedly connected to the side wall of the processing box (1). The input end of the delivery box (36) is fixedly connected to an input pipe (37). One end of the input pipe (37) is connected to a connecting box (26). The output end of the delivery box (36) is fixedly connected to two second air outlet pipes (38) extending into the processing box (1). The output ends of the two second air outlet pipes (38) are fixedly connected to multiple nozzles (39). The first delivery pipe (31) is connected to the first outlet pipe (12).

2. The slag removal and deodorization equipment for wet wipe processing and production according to claim 1, characterized in that: The connecting assembly includes two horizontal tubes (17) disposed between multiple sleeves (14), the two horizontal tubes (17) being connected to the multiple sleeves (14) respectively, and a vertical tube (18) being provided between the two horizontal tubes (17), wherein the output end of one of the horizontal tubes (17) is fixedly connected to two bent tubes (19).

3. The slag removal and deodorization equipment for wet wipe processing and production according to claim 2, characterized in that: The lifting assembly includes a guide rail (21) fixedly connected to the inner side wall of the first chamber (3), a guide block (22) slidably connected to the guide rail (21), a lifting rod (20) rotatably connected to the guide block (22), one end of the lifting rod (20) extending to the bottom of the wet wipe roll (8), a rotating box (23) fixedly connected to the side wall of the processing box (1), a rotating rod (24) rotatably connected inside the rotating box (23), one end of the rotating rod (24) passing through the side wall of the processing box (1) and extending into the interior, a cam (25) sleeved on the rotating rod (24), the cam (25) being located below the guide block (22), and the output end of the bending tube (19) being connected to the rotating box (23).

4. The slag removal and deodorization equipment for wet wipe processing and production according to claim 3, characterized in that: The collection assembly includes two delivery ports (33) disposed on the side wall of the second chamber (4). An inclined plate (34) is fixedly connected to the side wall of each of the two delivery ports (33). A collection box (35) is fixedly connected to the side wall of the processing box (1). The output ends of the two inclined plates (34) are located inside the collection box (35).

5. The slag removal and deodorization equipment for wet wipe processing and production according to claim 4, characterized in that: The two second air outlet pipes (38) are located above the two inclined plates (34).

6. The slag removal and deodorization equipment for wet wipe processing and production according to claim 5, characterized in that: The cleaning assembly includes a transition box (40) fixedly connected to the side wall of the processing box (1). Two cleaning rollers (41) are provided through the transition box (40). One end of the two cleaning rollers (41) passes through the side wall of the processing box and extends into the interior. The two cleaning rollers (41) are respectively located on both sides of the wet wipe roll (8). A second vortex fan blade (42) is connected to each of the two cleaning rollers (41). The two second vortex fan blades (42) are respectively located in the transition box (40). A third conveying pipe (43) is fixedly connected to the input end of each of the two transition boxes (40). One end of each of the two third conveying pipes (43) is connected to the connecting box (26).

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