Automatic immersion peeling device
The design of the automatic soaking and peeling device solves the problems of low efficiency and sample integrity in carton weight detection by manual operation, realizes automated soaking and peeling, reduces costs and improves detection efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- INNER MONGOLIA MENGNIU DAIRY IND (GROUP) CO LTD
- Filing Date
- 2025-04-25
- Publication Date
- 2026-06-09
AI Technical Summary
In current carton weight testing, manual operation is inefficient and costly, and the integrity of the sample after soaking and peeling is difficult to guarantee, affecting the final test results.
An automatic soaking and peeling device is designed, comprising a control mechanism, a soaking mechanism, and a peeling mechanism. The soaking and peeling process is controlled by a control panel, and the automatic soaking and peeling of cartons is achieved by using a water tank, a pin assembly, and a water suction tray to ensure the integrity of the samples.
It automates the preparation process before carton weight detection, reduces labor costs, improves efficiency, and ensures the integrity of the sample after soaking and peeling, supporting accurate test results.
Smart Images

Figure CN224341302U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cardboard box inspection technology, and in particular to an automatic soaking and peeling device. Background Technology
[0002] Weight measurement of cardboard boxes is a crucial step in ensuring product quality and safety. It not only enhances product protection but also reduces transportation risks and guarantees compliance with regulatory standards. The weight of the cardboard box material affects its rigidity, compressive strength, load-bearing capacity, shape retention, and elastic recovery. Specifically, higher weight cardboard boxes provide stronger support and rigidity, allowing them to maintain their shape better during transportation and storage, reducing deformation. Compressive strength, which measures the maximum load a cardboard box can withstand under pressure, is directly affected by its weight; higher weight cardboard boxes have higher compressive strength. The load-bearing capacity of a cardboard box includes its loaded weight and stacking weight. Higher weight cardboard boxes can withstand greater weight, ensuring stability during transportation and preventing deformation or damage due to excessive weight. The degree of shape change under pressure, i.e., the deformation rate, is also affected by the weight of the cardboard box; higher weight cardboard boxes offer better shape retention, reducing deformation under pressure. At the same time, the ability of a cardboard box to return to its original shape after being subjected to pressure, i.e., elastic recovery, is also affected by its basis weight. Cardboard boxes with higher basis weight can quickly return to their original state after use.
[0003] Currently, the weight detection of cardboard boxes mostly adopts a layered soaking process, which is mostly done manually. This process is not only slow but also has high labor costs. In addition, it is difficult to ensure the integrity of the sample after soaking and peeling to support the final test results. Utility Model Content
[0004] The purpose of this invention is to provide an automatic soaking and peeling device to achieve automated soaking and peeling, avoid manual operation, ensure the integrity of the sample after soaking and peeling, improve soaking and peeling efficiency, and reduce costs.
[0005] To achieve this objective, the present invention adopts the following technical solution:
[0006] An automatic soaking and peeling device is used for soaking and peeling cardboard boxes, wherein the automatic soaking and peeling device includes:
[0007] The control mechanism, and the soaking mechanism and the peeling mechanism connected to the control mechanism, the control mechanism is equipped with a control panel, and the control panel is equipped with several sub-screens for controlling the opening and closing of the soaking mechanism and the peeling mechanism and the operating parameters.
[0008] The soaking mechanism is equipped with a water tank and a pin assembly. The water tank is equipped with a height-adjustable placement platform. The cardboard box is placed on the placement platform and soaked in the water tank. The pin assembly is located on both sides of the water tank and can be inserted into the prismatic structure on both sides of the cardboard box respectively.
[0009] The peeling mechanism is equipped with a water-absorbing tray located above the placement platform, which can pick up the carton for peeling.
[0010] Optionally, the water tank is provided with a lower water level limit and a higher water level limit, and a first sensor is provided on the side wall of the water tank between the two to detect the water level of the water tank, with the cardboard box immersed between the lower water level limit and the upper water level limit.
[0011] Optionally, a temperature control component is provided at the bottom of the water tank, and a second sensor is provided on the side wall of the bottom of the water tank. The temperature control component can adjust the water temperature in the water tank, and the second sensor is used to detect the water temperature.
[0012] Optionally, a telescopic component is provided on the temperature control component, and the placement platform is located at the moving end of the telescopic component, which can control the up and down movement of the placement platform.
[0013] Optionally, the pin assembly is provided in two sets, and the two sets of pin assemblies are respectively located on the outer sides of opposite sides of the water tank. The pin assembly is provided with a height-adjustable pin, which is parallel to the carton and can extend or retract toward or away from the placement platform to insert into or detach from the prismatic structure of the carton.
[0014] Optionally, the pin assembly includes a moving groove, a slide rail, and a slider. The slide rail is disposed in the moving groove, and both are arranged in a vertical direction. The slider is slidably disposed on the slide rail, and the pin is retractably disposed on the slider in a horizontal direction.
[0015] Optionally, the peeling mechanism further includes a fan and an absorption channel. One end of the absorption channel is connected to the water absorption tray, and the other end is connected to the fan. The water absorption tray has several water absorption holes on the side facing the placement platform. After the fan is started, the cardboard box can be adsorbed onto the water absorption tray under negative pressure, and the liquid inside the cardboard box can be transported to the absorption channel through the water absorption holes.
[0016] Optionally, the absorption channel includes a gas channel and a liquid channel. When the fan is turned on, gas enters the gas channel through the water inlet, and liquid enters the liquid channel through the water inlet.
[0017] Optionally, the bottom of the stripping mechanism is provided with a second drain outlet through which the liquid in the absorption channel is discharged.
[0018] Optionally, the bottom of the water tank is provided with an inlet and a first outlet at intervals for filling and draining the water tank. The first outlet is connected to the second outlet, and both are connected to a discharge pipe.
[0019] The beneficial effects of this utility model are:
[0020] This invention utilizes a control mechanism to adjust and control the opening and closing of the immersion and peeling mechanisms, as well as their corresponding operating parameters. This enables automated immersion and peeling of cartons, automating the preparatory work for carton weight detection, effectively avoiding manual labor, reducing labor costs, and improving work efficiency. Furthermore, the immersion mechanism is equipped with a water tank to provide immersion conditions and a height-adjustable platform to support the cartons, ensuring complete immersion. Combined with pin assemblies on both sides, these pins can be inserted into the prismatic structure of the cartons to secure them, ensuring complete immersion and facilitating subsequent peeling. Specifically, the peeling mechanism is equipped with a suction tray to pick up the cartons for peeling. Combined with the control mechanism, this achieves automated immersion and peeling, and the pin assemblies ensure the integrity of the sample after immersion and peeling, supporting the final test results. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of the automatic soaking and peeling device described in an embodiment of this utility model;
[0022] Figure 2 This is a schematic diagram of the control mechanism in the automatic soaking and peeling device described in this embodiment of the utility model;
[0023] Figure 3 This is a schematic diagram of the soaking mechanism in the automatic soaking and peeling device described in this embodiment of the utility model;
[0024] Figure 4 This is a schematic diagram of the peeling mechanism in the automatic soaking and peeling device described in this embodiment of the utility model.
[0025] In the picture:
[0026] 100 - Carton; 10 - Control mechanism; 20 - Soaking mechanism; 30 - Peeling mechanism;
[0027] 11-Control box; 101-Control panel; 12-First sub-panel; 121-Automatic control button; 122-First button; 123-Second button; 124-Third button; 125-Fourth button; 13-Second sub-panel; 14-Third sub-panel; 15-Fourth sub-panel; 16-Fifth sub-panel; 161-Switch button; 162-Reset button; 102-Alarm assembly; 103-Heat dissipation assembly;
[0028] 21-Water tank; 201-Water inlet; 202-First drain outlet; 211-Lower water level limit; 212-Upper water level limit; 213-First sensor; 214-Second sensor; 22-Temperature control component; 23-Telescopic component; 231-Placement platform; 24-Pin assembly; 241-Moving groove; 242-Slide rail; 243-Slider; 244-Pin; 25-Power component;
[0029] 31-Fan; 32-Absorption channel; 321-Gas channel; 322-Liquid channel; 33-Water suction tray; 301-Water suction hole; 302-Second drain outlet. Detailed Implementation
[0030] The embodiments of this utility model are described in detail below. Examples of the embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar parts or parts having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.
[0031] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "connected," "linked," and "fixed" should be interpreted broadly. For example, they can refer to a fixed connection or a detachable connection; a mechanical connection or an electrical connection; a direct connection or an indirect connection through an intermediate medium; or the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0032] In the description of this utility model, unless otherwise expressly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0033] The technical solution of this embodiment will be further described below with reference to the accompanying drawings and specific implementation methods.
[0034] like Figures 1-4As shown, this embodiment provides an automatic soaking and peeling device for soaking and peeling cardboard boxes 100. The automatic soaking and peeling device includes a control mechanism 10, and a soaking mechanism 20 and a peeling mechanism 30 connected to the control mechanism 10. The control mechanism 10 is provided with a control screen 101, and the control screen 101 is provided with several sub-screens for controlling the opening and closing of the soaking mechanism 20 and the peeling mechanism 30 and their operating parameters. The soaking mechanism 20 is provided with a water tank 21 and a pin assembly 24. The water tank 21 is provided with a height-adjustable placement platform 231. The cardboard box 100 is placed on the placement platform 231 and soaked in the water tank 21. The pin assembly 24 is located on both sides of the water tank 21 and can be inserted into the prismatic structure on both sides of the cardboard box 100 respectively. The peeling mechanism 30 is provided with a water suction tray 33, which is located above the placement platform 231 and can suck up the cardboard box 100 for peeling.
[0035] Specifically, in this embodiment, the control mechanism 10 is used to adjust and control the opening and closing of the soaking mechanism 20 and the peeling mechanism 30, as well as the corresponding operating parameters. This enables automated soaking and peeling of the carton 100, thereby automating the preparatory work for the 100g weight detection of the carton, effectively avoiding manual operation, reducing labor costs, and improving work efficiency. Furthermore, the soaking mechanism 20 is equipped with a water tank 21 to provide soaking conditions and a height-adjustable placement platform 231 to support the carton 100, ensuring complete soaking. Combined with the pin assemblies 24 on both sides, these can be inserted into the prismatic structure of the carton 100 to fix it in place, ensuring complete soaking and facilitating subsequent peeling operations. Specifically, the peeling mechanism 30 is equipped with a water suction tray 33 to pick up the carton 100 for peeling. Combined with the control of the control mechanism 10, this enables automated soaking and peeling, and the pin assemblies 24 ensure the integrity of the sample after soaking and peeling, supporting the final inspection results.
[0036] The specific structure of the automatic soaking and peeling device in this embodiment will be described below.
[0037] like Figure 1 As shown, the automatic soaking and peeling device in this embodiment includes a control mechanism 10, a soaking mechanism 20, and a peeling mechanism 30, used for soaking and peeling operations of the carton 100. Optionally, in this embodiment, the control mechanism 10, the soaking mechanism 20, and the peeling mechanism 30 are arranged sequentially from left to right, and the soaking mechanism 20 and the peeling mechanism 30 are both communicatively connected to the control mechanism 10. Thus, the control mechanism 10 can control the opening and closing of the soaking mechanism 20 and the peeling mechanism 30, and can also set the related operating parameters of the two, thereby achieving the effect of automated soaking and peeling of the carton 100, which is easy to operate and results in a well-formed final sample.
[0038] like Figure 2As shown, specifically, the control mechanism 10 includes a control box 11, on which a control panel 101, an alarm component 102, and a heat dissipation component 103 are mounted. Specifically, the control panel 101, alarm component 102, and heat dissipation component 103 are arranged sequentially from top to bottom on the front side of the control box 11. The control panel 101 has several sub-panels to control the opening, closing, and operating parameters of the soaking mechanism 20 and the stripping mechanism 30 in separate zones. Optionally, the alarm component 102 includes at least an alarm light and a buzzer, so that when problems occur or equipment malfunctions during operation, the alarm light provides a visual alarm, and the buzzer provides an audible alarm, prompting the operator to promptly control the entire operation process. Optionally, below the alarm component 102, the control box 11 has several heat dissipation holes, and the heat dissipation component 103 includes at least a cooling fan, so that the cooling fan and heat dissipation holes can cool and dissipate heat inside the control box 11 to ensure the stable operation of the control mechanism 10.
[0039] Optionally, in this embodiment, the control screen 101 is provided with a first sub-screen 12, a second sub-screen 13, a third sub-screen 14, a fourth sub-screen 15, and a fifth sub-screen 16 arranged sequentially from top to bottom. Specifically, the first sub-screen 12 is provided with an automatic control button 121, which can be used to start the automated operation of soaking and peeling the carton 100 as needed. Further, the first sub-screen 12 is provided with a first button 122, a second button 123, a third button 124, and a fourth button 125 arranged sequentially from left to right. Specifically, in this embodiment, the first button 122 and the second button 123 are used to control the up and down movement of the placement platform 231 in the soaking mechanism 20, respectively, and the third button 124 and the fourth button 125 are used to control the extension and retraction of the pins 244 in the soaking mechanism 20, respectively. This allows the height of the carton 100 to be adjusted to ensure a better soaking effect and to achieve the insertion effect of the pins 244 in the prismatic structure of the carton 100, which facilitates the fixing and peeling of the carton 100. For example, in this embodiment, the first button 122, the second button 123, the third button 124 and the fourth button 125 are all set as triangles, and the first button 122 and the third button 124 are set as equilateral triangles, while the second button 123 and the fourth button 125 are set as inverted triangles, so as to facilitate the operator to make adjustments quickly and avoid repeated adjustments.
[0040] Furthermore, in this embodiment, the second screen 13 is used to control the negative pressure of the air passage in the peeling mechanism 30, and the third screen 14 is used to control the pressurization of the air passage in the peeling mechanism 30, thereby achieving different degrees of absorption effect of the cardboard box 100 and making it easy to remove the single layer of cardboard box 100 after peeling. Optionally, the fourth screen 15 is used to control the water temperature in the soaking mechanism 20 to ensure that the soaking environment of the cardboard box 100 meets the process requirements. For example, a preset water temperature can be input on the fourth screen 15, and the actual temperature can be displayed on the fourth screen 15 in real time, thereby achieving the purpose of controllable water temperature in the water tank 21 in the soaking mechanism 20. Furthermore, a switch button 161 and a reset button 162 are respectively provided on the fifth screen 16. Specifically, the switch button 161 can be used to turn the control mechanism 10 on or off, and the reset button 162 can be used to reset the settings in the above screens.
[0041] like Figure 2 As shown, in this embodiment, the soaking mechanism 20 includes a water tank 21, a temperature control component 22, a telescopic component 23, a pin assembly 24, and a power component 25. Optionally, the water tank 21 is located in the middle of the automatic soaking and peeling device, and the temperature control component 22 is located at the middle of the bottom of the water tank 21. The telescopic component 23 is located on the temperature control component 22. Two sets of pin assemblies 24 are provided, and the two sets of pin assemblies 24 are located on the outer sides of opposite sides of the water tank 21. The power component 25 is located on the side of one of the pin assemblies 24 facing away from the water tank 21. In this embodiment, the power component 25 is located between the control mechanism 10 and the water tank 21. Optionally, the cardboard box 100 is placed on the telescopic component 23 and soaked in the water tank 21. In this embodiment, the telescopic component 23 can extend and retract vertically under the action of the power component 25, thereby changing the height of the cardboard box 100 in the water tank 21. Furthermore, the two sets of pin assemblies 24 can be inserted into the prismatic structure on both sides of the carton 100 under the action of the power assembly 25, so as to facilitate subsequent fixing and peeling. Exemplarily, the power assembly 25 is communicatively connected to the control mechanism 10, so that the soaking mechanism 20 can be controlled and adjusted by the buttons on the control mechanism 10.
[0042] Specifically, in this embodiment, the water tank 21 is provided with a lower water level limit 211 and a higher water level limit 212, and a first sensor 213 is provided on the side wall of the water tank 21 between the two limits to detect the water level of the water tank 21, so that the operator can adjust the inflow and outflow of water in a timely manner. For example, the cardboard box 100 is immersed between the lower water level limit 211 and the higher water level limit 212, and the height difference between the lower water level limit 211 and the higher water level limit 212 is greater than the thickness of the cardboard box 100 to ensure that the cardboard box 100 is completely immersed in water. Specifically, the bottom of the water tank 21 is provided with an inlet 201 and a first drain 202 at intervals to facilitate the filling and draining of water from the water tank 21, and the temperature control component 22 is located between the inlet 201 and the first drain 202, thereby enabling the adjustment of the water temperature in the water tank 21. Furthermore, a second sensor 214 is installed on the side wall at the bottom of the water tank 21 to detect the water temperature in the water tank 21. Combined with the fourth split screen 15 in the control mechanism 10, the water temperature can be regulated to meet the process requirements.
[0043] Optionally, in this embodiment, the telescopic component 23 is arranged vertically, with its bottom end as a fixed end and its top end as a movable end. Specifically, the fixed end is fixedly installed on the temperature control component 22, and the movable end is vertically connected to a placement platform 231 arranged horizontally. Specifically, the telescopic component 23 can extend and retract vertically, thereby making the height of the placement platform 231 adjustable. Further, the cardboard box 100 is placed on the placement platform 231 to ensure the stable placement of the cardboard box 100. Optionally, in this embodiment, the cardboard box 100 on the placement platform 231 is immersed between the lower limit of the water level 211 and the upper limit of the water level 212 to ensure that the cardboard box 100 can be completely immersed in the water tank 21. Exemplarily, the height of the placement platform 231 can be controlled by combining the first button 122 and the second button 123 of the control mechanism 10.
[0044] like Figure 3 As shown, in this embodiment, the pin assembly 24 includes a moving groove 241, a slide rail 242, a slider 243, and a pin 244. Specifically, the height of the pin 244 is adjustable, and the pin 244 is arranged parallel to the carton 100, that is, the pin 244 is also arranged in the horizontal direction. The pin 244 can extend and retract toward or away from the placement platform 231, thereby being able to be inserted into or detached from the prismatic structure of the carton 100. Specifically, the moving groove 241 is arranged on the outside of the water tank 21, and the slide rail 242 is arranged in the moving groove 241. Both the moving groove 241 and the slide rail 242 are arranged in the vertical direction, and the slider 243 is slidably arranged on the slide rail 242, thereby the slider 243 can move in the vertical direction.
[0045] Furthermore, the pin 244 is horizontally retractable on the slider 243, allowing it to move vertically up and down under the influence of the slider 243. This adjusts its relative height to the carton 100 and, through its extension and retraction, the distance between the pin 244 and the carton 100, enabling it to be inserted into or detached from the carton 100's prismatic structure, facilitating the fixing and peeling of the carton 100. For example, the extension and retraction of the pin 244 can be controlled by combining the third button 124 and the fourth button 125 of the control mechanism 10. Optionally, two additional buttons can be provided on the control mechanism 10 to control the vertical movement of the slider 243 on the slide rail 242. In other embodiments, a horizontal displacement component can be provided between the slider 243 and the pin 244 to control the horizontal displacement of the pin 244. Thus, even if the pin 244 is a non-telescopic structure, the pin 244 can move in both the vertical and horizontal directions. The specific configuration can be determined according to the site conditions and is not limited here.
[0046] like Figure 4 As shown, in this embodiment, the peeling mechanism 30 includes a fan 31, an absorption channel 32, and a water-absorbing tray 33. The absorption channel 32 includes a gas channel 321 and a liquid channel 322. The water-absorbing tray 33 is provided with a plurality of water-absorbing holes 301, and the peeling mechanism 30 is also provided with a second drain outlet 302. Optionally, the fan 31 is located at the bottom and is located on the side of the pin assembly 24 facing away from the water tank 21. Further, the water-absorbing tray 33 is located above the placement platform 231 and can suck up the cardboard box 100 for peeling. Specifically, one end of the absorption channel 32 is connected to the water-absorbing tray 33, and the other end is connected to the fan 31. The side of the water-absorbing tray 33 facing the placement platform 231 is provided with a plurality of water-absorbing holes 301. Thus, after the fan 31 is started, the cardboard box 100 can be adsorbed onto the water-absorbing tray 33 under the action of negative pressure, and the excess liquid in the cardboard box 100 can be transported to the absorption channel 32 through the water-absorbing holes 301.
[0047] For example, the absorbent tray 33 is arranged horizontally, parallel to the cardboard box 100, and the cross-sectional area of the absorbent tray 33 is larger than that of the cardboard box 100, so that the absorbent tray 33 can completely cover the top of the cardboard box 100. For example, in this embodiment, the absorbent tray 33 is set with a square structure to match the structure of the cardboard box 100. Furthermore, a plurality of absorbent holes 301 are arranged in an array on the absorbent tray 33, so as to ensure stable absorption of the cardboard box 100 and to absorb excess liquid on the cardboard box 100 to the maximum extent.
[0048] Specifically, in this embodiment, the absorption channel 32 is provided with a gas channel 321 and a liquid channel 322, with the gas channel 321 located above the liquid channel 322. This allows gas to enter the gas channel 321 through the water suction hole 301 and liquid to enter the liquid channel 322 through the water suction hole 301 after the fan 31 is turned on. This ensures stable absorption of the cardboard box 200 while uniformly treating excess moisture inside. For example, the separation process of gas and liquid after the water suction hole 301 can be configured according to site requirements, such as using a gas-liquid separation structure; no limitation is made here. For example, the second screen 13 and the third screen 14 in the control mechanism 10 can control the negative and positive pressure of the air path of the fan 31 to achieve the adsorption and release of the cardboard box 100.
[0049] Specifically, in this embodiment, the bottom of the stripping mechanism 30 is provided with a second drain outlet 302, and the second drain outlet 302 is connected to the absorption channel 32 so that the liquid in the absorption channel 32 can be discharged through the second drain outlet 302. Further, in this embodiment, the first drain outlet 202 and the second drain outlet 302 can be connected, and a main drain pipe can be connected at the bottom of the branch after the two are connected to connect to the discharge pipe to achieve unified treatment of waste liquid.
[0050] Working process: Open the water inlet 201 to fill the water tank 21 with water, keeping the water level between the lower limit 211 and the upper limit 212. Then, turn on the temperature control component 22 to heat the water tank 21 until the water temperature reaches the preset temperature. After preheating, place the cardboard box 100 on the placement platform 231 and operate the telescopic component 23 to extend and retract, as well as the pins 244 in the pin assembly 24 to extend and retract, so that the cardboard box 100 is soaked in the target position. The pins 244 can be inserted into its prismatic structure to fix it. After soaking, control the telescopic component 23 to extend and retract and the pin assembly 24 to move up and down again, and turn on the fan 31 so that the suction plate 33 can pick up the cardboard box 100. Combined with the fixation of the pins 244, the cardboard box 100 can be peeled off layer by layer. The excess liquid in the sucked single layer of cardboard box 100 is absorbed and discharged through the second drain outlet 302, thus achieving the final peeling.
[0051] Therefore, the automated operation of the automatic soaking and peeling device in this embodiment can not only effectively avoid manual operation, but also make the operation simple and easy to peel, and the final sample is well formed. This allows the carton 100 to be quickly pre-treated when the weight is detected, improving the efficiency of soaking and peeling, and the final test results are more accurate.
[0052] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating the present utility model, and are not intended to limit the implementation of the present utility model. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of the claims of this utility model.
Claims
1. An automatic soaking and peeling device for soaking and peeling cardboard boxes (100), characterized in that, The automatic soaking and peeling device includes: The control mechanism (10), and the soaking mechanism (20) and the peeling mechanism (30) are connected to the control mechanism (10). The control mechanism (10) is provided with a control screen (101), and the control screen (101) is provided with several sub-screens for controlling the opening and closing and operating parameters of the soaking mechanism (20) and the peeling mechanism (30). The soaking mechanism (20) is provided with a water tank (21) and a pin assembly (24). The water tank (21) is provided with a height-adjustable placement platform (231). The cardboard box (100) is placed on the placement platform (231) and soaked in the water tank (21). The pin assembly (24) is located on both sides of the water tank (21) and can be inserted into the prism structure on both sides of the cardboard box (100). The peeling mechanism (30) is equipped with a water-absorbing tray (33), which is located above the placement platform (231) and is capable of absorbing the carton (100) for peeling.
2. The automatic soaking and peeling device according to claim 1, characterized in that, The water tank (21) is provided with a lower limit (211) and an upper limit (212) of water level, and a first sensor (213) is provided on the side wall of the water tank (21) between the two for detecting the water level of the water tank (21). The cardboard box (100) is immersed between the lower limit (211) and the upper limit (212).
3. The automatic soaking and peeling device according to claim 1, characterized in that, A temperature control component (22) is provided at the bottom of the water tank (21), and a second sensor (214) is provided on the side wall at the bottom of the water tank (21). The temperature control component (22) can adjust the water temperature in the water tank (21), and the second sensor (214) is used to detect the water temperature.
4. The automatic soaking and peeling device according to claim 3, characterized in that, A telescopic component (23) is provided on the temperature control component (22), and the placement platform (231) is located at the moving end of the telescopic component (23). The telescopic component (23) can control the placement platform (231) to move up and down.
5. The automatic soaking and peeling device according to claim 1, characterized in that, Two sets of the pin assembly (24) are provided, and the two sets of the pin assembly (24) are respectively provided on the outer sides of opposite sides of the water tank (21). The pin assembly (24) is provided with a height-adjustable pin (244). The pin (244) is arranged parallel to the carton (100), and the pin (244) can extend or retract toward or away from the placement platform (231) to insert into or detach from the prismatic structure of the carton (100).
6. The automatic soaking and peeling device according to claim 5, characterized in that, The pin assembly (24) includes a moving groove (241), a slide rail (242), and a slider (243). The slide rail (242) is disposed in the moving groove (241), and both are arranged in the vertical direction. The slider (243) is slidably disposed on the slide rail (242), and the pin (244) is retractably disposed on the slider (243) in the horizontal direction.
7. The automatic soaking and peeling device according to claim 1, characterized in that, The peeling mechanism (30) also includes a fan (31) and an absorption channel (32). One end of the absorption channel (32) is connected to the water absorption tray (33), and the other end is connected to the fan (31). The water absorption tray (33) has several water absorption holes (301) on the side facing the placement platform (231). After the fan (31) is started, the cardboard box (100) can be adsorbed onto the water absorption tray (33) under the action of negative pressure, and the liquid in the cardboard box (100) can be transported to the absorption channel (32) through the water absorption holes (301).
8. The automatic soaking and peeling device according to claim 7, characterized in that, The absorption channel (32) includes a gas channel (321) and a liquid channel (322). After the fan (31) is turned on, the gas enters the gas channel (321) through the water suction hole (301), and the liquid enters the liquid channel (322) through the water suction hole (301).
9. The automatic soaking and peeling device according to claim 7, characterized in that, The bottom of the stripping mechanism (30) is provided with a second drain outlet (302), through which the liquid in the absorption channel (32) is discharged.
10. The automatic soaking and peeling device according to claim 9, characterized in that, The bottom of the water tank (21) is provided with an inlet (201) and a first drain (202) at intervals for filling and draining water into the water tank (21). The first drain (202) is connected to the second drain (302), and both are connected to the discharge pipe.