A tampon collection device
By designing a tampon collection device, and using longitudinal and vertical control structures to adjust the spacing of the tampons and insert them into a transfer box, the problem of automated feeding after tampon cutting was solved, achieving efficient collection and automated spacing adjustment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUIZHOU SHUOLANG TECHNOLOGY CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-09
AI Technical Summary
In the production of e-cigarettes, when tampons are cut and need to be automatically fed, existing technologies struggle to efficiently adjust the spacing between the tampons and collect them into a transfer box.
A tampon collection device was designed, including a transfer table, a transfer box structure, an empty material rack, and a collection material rack. The spacing of the tampons is adjusted by the longitudinal and vertical control structures in the transfer structure, and the tampons are inserted into the transfer box by a moving needle, so as to achieve fully automatic retrieval and collection.
It enables efficient collection of slivers and automated adjustment of spacing, improving production efficiency and simplifying the sliver transfer process.
Smart Images

Figure CN224336688U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to automated production equipment, and in particular to a cotton sliver collection device. Background Technology
[0002] In the production process of tampons for e-cigarettes, rolled raw materials need to be cut into rectangular tampons. Since the tampons are cut from rolled raw materials, adjacent tampons are placed close together. In subsequent production processes, in order to automate the feeding of tampons in e-cigarette production, the tampons need to be collected and placed in a transfer box. The transfer box is equipped with a sink trough for placing the tampons. The sink trough has a certain spacing in both the horizontal and vertical directions. Therefore, a collection device is needed that can adjust the spacing between the tampons while collecting them to achieve efficient collection. Utility Model Content
[0003] Therefore, it is necessary to provide a tampon collection device to address the problems in the existing technology.
[0004] A tampon collection device, characterized in that it includes a conveyor table with a waste roll on the side.
[0005] The transfer box conveying structure is set up in parallel with the transfer table to move the transfer box, and has an empty material rack and a collection material rack at each end;
[0006] Empty material rack, used to place empty transfer boxes;
[0007] A collection rack for collecting transfer boxes filled with tampons.
[0008] The transfer structure is used to remove the cotton strips from the transfer table position, adjust the spacing between adjacent cotton strips to match the sink groove of the transfer box, and move them into the transfer box at the transfer box transfer structure position.
[0009] In one embodiment, the transfer structure includes a longitudinal support, a transverse transfer structure spanning the transfer station and the transfer box.
[0010] The longitudinal moving plate is installed on the upper side of the longitudinal support.
[0011] The longitudinal control structure is used to control the longitudinal movement of the longitudinal moving plate on the upper side of the longitudinal support.
[0012] The moving structure is located on the side of the longitudinal moving plate. The vertical moving structure is controlled by the vertical control structure to move up and down. The moving structure is equipped with a moving needle. After the moving needle is inserted into the cotton strip to be collected, it moves to the empty transfer box under the action of the longitudinal control structure and the vertical control structure.
[0013] In one embodiment, the moving structure includes a first vertical moving plate, a first horizontal plate fixedly disposed on the lower side of the first vertical moving plate, a plurality of moving components disposed on the lower side of the first horizontal plate, the moving components being provided with a plurality of longitudinal moving strips, the moving pin being fixed on the lower side of the longitudinal moving strips, a lateral moving adjustment component for controlling the spacing between the moving components disposed on the upper side of the first horizontal plate, and a longitudinal moving adjustment component for controlling the spacing between the plurality of longitudinal moving strips disposed on the side of the first vertical moving plate.
[0014] In one embodiment, the moving component includes a lower lateral adjustment plate, which is fixed to the lower side of the first horizontal plate by a lateral guide rail slider structure.
[0015] The lateral movement adjustment assembly includes an upper lateral adjustment plate mounted on the upper side of a first horizontal plate via a longitudinal guide rail slider. An upper adjustment cylinder is mounted on the upper side of the upper lateral adjustment plate, and the piston rod of the upper adjustment cylinder is fixed to the first horizontal plate for adjusting the longitudinal movement of the upper lateral adjustment plate on the upper side of the first horizontal plate.
[0016] The first horizontal plate is provided with a moving groove, the upper horizontal adjustment plate is provided with an upper inclined groove, and the upper side of the lower horizontal adjustment plate is provided with an upper guide post, the upper guide post passing through the moving groove into the upper inclined groove.
[0017] When the upper adjusting cylinder controls the piston rod to move, the upper guide column moves relative to the upper inclined groove, controlling the lateral spacing of the lower lateral adjusting plate to increase or decrease.
[0018] In one embodiment, the moving component further includes a plurality of vertical connecting bars, which are disposed on the side of the lower transverse adjustment plate via a longitudinal guide rail slider structure, and the longitudinal moving bars are fixed at the lower position of the corresponding vertical connecting bars.
[0019] The longitudinal movement adjustment assembly includes a lower longitudinal adjustment plate, which is fixed to the side of the lower transverse adjustment plate by a vertical guide rail slider structure. The lower longitudinal adjustment plate is provided with several downward inclined grooves. A lower guide post is fixed to the side of the vertical connecting strip. The lower guide post passes through the downward inclined groove. The side plate of the lower longitudinal adjustment plate is provided with a lower control assembly for controlling the up and down movement of the lower longitudinal adjustment plate. When the lower longitudinal adjustment plate moves up and down, the lower guide post moves relative to the vertical connecting strip and the longitudinal movement strip, thereby controlling the longitudinal spacing between the vertical connecting strip and the longitudinal movement strip to increase or decrease.
[0020] In one embodiment, the lower control assembly includes a longitudinal connecting strip fixed to the lower longitudinal adjusting plate. The other end of the longitudinal connecting strip passes through the moving groove of the first horizontal plate to the upper side of the first horizontal plate. A lower roller is rotatably provided at the end of the longitudinal connecting strip. A lower control cylinder is provided on the side of the first vertical moving plate. The piston rod of the lower control cylinder is connected to the lower control plate. A lower transverse horizontal groove is provided on the lower side of the lower control plate. The lower roller moves synchronously up and down and laterally within the lower transverse horizontal groove.
[0021] In one embodiment, a separation plate is provided on the lower side of the longitudinal moving bar. The separation plate is fixed to the side of the lower transverse adjusting plate by a vertical guide rail slider structure. The bottom of the moving needle is lower than the lower side of the separation plate. A separation control structure for controlling the up and down movement of the separation plate is provided on the side of the separation plate.
[0022] In one embodiment, the separation control structure includes a separation cylinder fixed to the side of a first horizontal plate. The piston rod of the separation cylinder is connected to a separation moving plate that moves up and down. The side of the separation moving plate is provided with a side transverse horizontal groove. The side of the separation plate is provided with a side connecting plate. A side roller is rotatably provided on the upper side of the side connecting plate. The side roller moves up and down and laterally synchronously within the side transverse horizontal groove.
[0023] In one embodiment, a clamping structure is provided on the upper side of the transmission platform. The clamping structure includes a clamping cylinder fixed to the side of the transmission platform. The piston rod of the clamping cylinder is connected to a clamping plate. The clamping plate is provided with a plurality of clamping strips extending to the upper side of the transmission platform.
[0024] The tampon collection device described above has a transfer structure that spans the transfer box and the upper part of the transfer platform. During use, the tampons cut on the upper part of the transfer platform are taken out, the spacing between adjacent tampons is adjusted, and then the device is moved to the transfer box position of the transfer box. After the tampon transfer is completed, the transfer structure moves back to the upper part of the transfer platform. By repeating the above actions, the fully automatic process of tampon removal, spacing adjustment, and collection can be completed, thereby achieving efficient collection of tampons. Attached Figure Description
[0025] Figure 1 This is a schematic diagram of the overall structure of the tampon collecting device of this utility model;
[0026] Figure 2 This is a schematic diagram of the structure of the cotton sliver collection device of this utility model;
[0027] Figure 3 This is a schematic diagram of the structure of the cotton sliver collection device of this utility model;
[0028] Figure 4This is a schematic diagram of the cross-sectional view of the swab collection device of this utility model.
[0029] Figure 5 This is a schematic diagram of the longitudinal movement adjustment component of the swab collection device of this utility model;
[0030] The components include: 1. Conveyor table; 2. Transfer box conveyor structure; 3. Empty material rack; 4. Material collection rack; 5. Transfer structure.
[0031] 51. Longitudinal support; 52. Longitudinal moving plate; 53. Longitudinal control structure;
[0032] 54. Moving structure; 540. Moving needle; 541. First vertical moving plate; 542. First horizontal plate;
[0033] 55. Moving component; 551. Vertical moving bar;
[0034] 552. Lateral movement adjustment assembly; 5521. Upper lateral adjustment plate; 5522. Upper adjustment cylinder; 5523. Upper tilting groove; 5524. Upper guide column;
[0035] 553. Longitudinal movement adjustment assembly; 5531. Lower longitudinal adjustment plate; 5532. Lower tilting groove; 5533. Lower guide column;
[0036] 554. Lower horizontal adjustment plate;
[0037] 555, Lower control assembly; 5551, Longitudinal connecting bar; 5552, Lower roller; 5553, Lower control cylinder; 5554, Lower control plate; 5555, Lower transverse horizontal groove;
[0038] 56. Vertical connecting strip;
[0039] 57. Separation control structure; 570. Separation plate; 571. Separation cylinder; 572. Separation moving plate; 573. Side transverse horizontal groove; 574. Side connecting plate; 575. Side roller;
[0040] 6. Clamping structure; 61. Clamping cylinder; 62. Clamping plate. Detailed Implementation
[0041] To make the above-mentioned objects, features, and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings. Many specific details are set forth in the following description to provide a full understanding of this utility model. However, this utility model can be implemented in many other ways different from those described herein, and those skilled in the art can make similar modifications without departing from the spirit of this utility model. Therefore, this utility model is not limited to the specific embodiments disclosed below.
[0042] It should be noted that when an element is said to be "fixed to" another element, it can be directly on the other element or there may be an intervening element. When an element is said to be "connected to" another element, it can be directly connected to the other element or there may be an intervening element. Conversely, when an element is said to be "directly on" another element, there is no intervening element. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.
[0043] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.
[0044] like Figures 1 to 5 As shown, a tampon collection device is characterized by comprising a conveyor table 1, with a waste roll provided on the side.
[0045] The transfer box conveying structure 2 is arranged in parallel with the transfer table 1 and is used to move the transfer box. It has an empty material rack 3 and a material collection rack 4 at both ends.
[0046] Empty material rack 3, used to place empty transfer boxes;
[0047] Collection rack 4 is used to collect transfer boxes filled with tampons.
[0048] The transfer structure 5 is used to remove the cotton strips at the position of the transfer table 1, adjust the spacing between adjacent cotton strips to match the sink groove of the transfer box, and move them into the transfer box at the position of the transfer box transfer structure 2.
[0049] The transfer structure 5 spans the upper side of the transfer box transmission structure 2 and the transfer table 1. During use, the cotton strips cut on the upper side of the transfer table 1 are taken out, the spacing between adjacent cotton strips is adjusted, and then it is moved to the transfer box position of the transfer box transmission structure 2. After the cotton strip transfer is completed, the transfer structure 5 is moved to the upper side of the transfer table 1. By repeating the above actions, the fully automatic process of cotton strip removal, spacing adjustment, and collection can be completed, thereby achieving efficient collection of cotton strips.
[0050] At this time, the conveyor 1 is a platform structure. A waste roll is provided on the side of the conveyor 1 to collect the waste material remaining after cutting. A winding motor is provided on the side of the waste roll to control the rotation and winding of the waste roll. At this time, the waste roll can pull the cut cotton strips to move on the upper side of the conveyor 1. At this time, both the conveyor 1 and the waste roll adopt the technical solutions in the prior art, so they will not be described in detail here.
[0051] The empty material rack 3 is used to place empty transfer boxes, and the collection rack 4 is used to place transfer boxes filled with cotton strips. The empty material rack 3 and the collection rack 4 are connected by the transfer box transmission structure 2. At this time, the transfer structure 5 spans the upper side of the transfer box transmission structure 2 and the transmission table 1. The transfer box transmission structure 2 includes a transverse guide rail, and a transfer table is provided on the upper side of the transverse guide rail. The transfer table is driven to move on the upper side of the transverse guide rail by a transverse drive structure, such as a linear motor or a lead screw structure. The empty material rack 3 and the collection rack 4 include vertical material bins, side baffles, and other structures to control the transfer boxes to fall to the transfer table position. A lifting cylinder is provided on the lower side of the collection rack 4 to lift the transfer boxes on the transfer table that have moved to this position upwards, so that they can be collected at the collection rack 4 position. At this time, the empty material rack 3, the collection rack 4, and the transfer box transmission structure 2 all adopt the solutions in the prior art, so they will not be described in detail here.
[0052] The transfer structure 5 is used to remove the swabs and adjust the spacing. Therefore, in this embodiment, the transfer structure 5 includes a longitudinal support 51, a transverse transfer platform 1, and a transfer box 2.
[0053] The longitudinal moving plate 52 is disposed on the upper side of the longitudinal support 51.
[0054] The longitudinal control structure 53 is used to control the longitudinal movement of the longitudinal moving plate 52 on the upper side of the longitudinal support 51.
[0055] The moving structure 54 is located on the side of the longitudinal moving plate 52. The moving structure 54 is controlled to move up and down by the vertical control structure. The moving structure 54 is equipped with a moving needle 540. After the moving needle 540 is inserted into the cotton strip to be collected, it moves to the empty transfer box under the action of the longitudinal control structure 53 and the vertical control structure.
[0056] Two longitudinal supports 51 are provided, arranged parallel to each other on the upper side of the transfer table 1 and the transfer box structure 2. A longitudinal moving plate 52 is provided on the upper side of the two longitudinal supports 51, spanning the two longitudinal supports 51. In this configuration, the upper side of one longitudinal support 51 is connected to the longitudinal moving plate 52 via a guide rail slider structure, and the upper side of the other longitudinal support 51 is provided with a linear module, thus forming a longitudinal control structure 53. This allows the linear module to control the longitudinal movement of the longitudinal moving plate 52 on the upper side of the longitudinal supports 51, enabling the longitudinal moving plate 52 to move longitudinally on the transfer table 1. The system reciprocates between the transfer box and the transport structure 2. At this time, a moving structure 54 is provided on the side of the longitudinal moving plate 52. The moving structure 54 is controlled to move up and down by a vertical control structure. The moving structure 54 includes a moving needle 540, which is set vertically. During the up and down movement of the moving needle 540, it can be inserted into the position of the cotton strip to be collected, thereby taking the cotton strip out from the position of the transport table 1. At this time, the moving needle 540 is used to insert the cotton strip to be collected to take out the cotton strip, which simplifies the overall structure and eliminates the need for a separate clamping and fixing structure.
[0057] At this time, the entire moving structure 54 is set on the side of the longitudinal moving plate 52 by a vertical control structure. The vertical control structure includes a vertical control cylinder fixed to the longitudinal moving plate 52. The vertical control cylinder is fixed to the moving structure 54. A vertical guide rail slider structure is set between the moving structure 54 and the longitudinal moving plate 52, so that the vertical control cylinder can control the overall up and down movement of the moving structure 54.
[0058] The moving structure 54 is used to remove the tampon. At this time, since the spacing between the tampon at the position of the transfer table 1 and the position of the transfer box is different, it is necessary to adjust the spacing of the moving needles 540. Specifically, the moving structure 54 includes a first vertical moving plate 541, a first horizontal plate 542 is fixedly provided on the lower side of the first vertical moving plate 541, a plurality of moving components 55 are provided on the lower side of the first horizontal plate 542, the moving components 55 are provided with a plurality of longitudinal moving strips 551, the moving needles 540 are fixed on the lower side of the longitudinal moving strips 551, a lateral moving adjustment component 552 for controlling the spacing of the moving components 55 is provided on the upper side of the first horizontal plate 542, and a longitudinal moving adjustment component 553 for controlling the spacing of the plurality of longitudinal moving strips 551 is provided on the side of the first vertical moving plate 541. The first vertical moving plate 541 is set on the side of the longitudinal moving plate 52 via a vertical guide rail slider structure. The first horizontal plate 542 is fixed on the lower side of the first vertical moving plate 541. Several moving components 55 are provided on the lower side of the first horizontal plate 542. At this time, the moving components 55 include several longitudinal moving strips 551. The moving needle 540 is fixed on the lower side of the longitudinal moving strips 551. The spacing between the longitudinal moving strips 551 is adjusted by the lateral moving adjustment component 552 and the longitudinal moving adjustment component 553, so as to adapt to cotton strips with different spacing. After the cotton strip is taken out from the conveyor table 1 by the moving needle 540, the spacing between the cotton strips is adjusted by the lateral moving adjustment component 552 and the longitudinal moving adjustment component 553.
[0059] Specifically, in this embodiment, the moving component 55 includes a lower lateral adjustment plate 554, which is fixed to the lower side of the first horizontal plate 542 by a lateral guide rail slider structure. The spacing between the lower lateral adjustment plates 554 is adjusted by moving the lateral adjustment component 552.
[0060] The lateral movement adjustment assembly 552 includes an upper lateral adjustment plate 5521 mounted on the upper side of the first horizontal plate 542 via a longitudinal guide rail slider. An upper adjustment cylinder 5522 is mounted on the upper side of the upper lateral adjustment plate 5521. The piston rod of the upper adjustment cylinder 5522 is fixed to the first horizontal plate 542 and is used to adjust the longitudinal movement of the upper lateral adjustment plate 5521 on the upper side of the first horizontal plate 542.
[0061] The first horizontal plate 542 is provided with a moving groove, the upper horizontal adjustment plate 5521 is provided with an upper inclined groove 5523, and the upper side of the lower horizontal adjustment plate 554 is provided with an upper guide post 5524, which passes through the moving groove and into the upper inclined groove 5523.
[0062] When the upper adjusting cylinder 5522 controls the piston rod to move, the upper guide column 5524 moves relative to the upper inclined groove 5523, controlling the lateral spacing of the lower lateral adjusting plate 554 to increase or decrease.
[0063] The upper transverse adjustment plate 5521 is slidably mounted on the upper side of the first horizontal plate 542 via a longitudinal guide rail slider. At this time, an upper adjustment cylinder 5522 is fixed on the upper side of the upper transverse adjustment plate 5521. The piston rod of the upper adjustment cylinder 5522 is fixed to the first horizontal plate 542. Thus, when the piston rod of the upper adjustment cylinder 5522 extends or retracts, the upper transverse adjustment plate 5521 and the first horizontal plate 542 rotate relative to each other, while the first horizontal plate 542 remains relatively fixed in the transverse direction. Therefore, the upper transverse adjustment plate 5521 moves longitudinally on the upper side of the first horizontal plate 542. At this time, a lower transverse adjustment plate 554 is connected to the lower side of the first horizontal plate 542 via a transverse guide rail slider structure. Thus, the lower transverse adjustment plate 554 can move laterally along the direction of the transverse guide rail slider. An upper guide post 5524 is provided on the upper side of the lower transverse adjustment plate 554. The upper guide post 5524 is engaged in the upper inclined groove 5523 of the upper transverse adjustment plate 5521.
[0064] At this point, taking the view in the attached figure as an example, the inclination angles and directions of the four upper inclined slots 5523 are different. The upper adjusting cylinders 5522 are symmetrically distributed on both sides of the center of the upper adjusting cylinder 5522. The farther away from the upper adjusting cylinder 5522, the larger the angle between the cylinder and the vertical side of the upper adjusting cylinder 5522 (with the top view as a reference). Thus, when the upper transverse adjusting plate 5521 moves longitudinally, when the piston rod of the upper adjusting cylinder 5522 extends, the upper transverse adjusting plate 5521 moves towards the first vertical moving plate 541. Under the guidance of the upper inclined slots 5523, the upper guide posts 5524 move towards each other. As the distance between the columns 5524 gradually decreases, the lateral spacing between the adjacent lower lateral adjustment plates 554 decreases. When the piston rod of the upper adjustment cylinder 5522 retracts, the upper lateral adjustment plate 5521 moves away from the first vertical moving plate 541. Under the guidance of the upper inclined groove 5523, the distance between adjacent upper guide columns 5524 gradually increases, thereby increasing the lateral spacing between the lower lateral adjustment plates 554. In this way, the spacing between the lower lateral adjustment plates 554 can be controlled by the upper adjustment cylinder 5522, that is, the lateral spacing between the longitudinal moving bars 551 (moving needles 540) can be adjusted.
[0065] To adjust the longitudinal spacing between the longitudinal moving strips 551 (moving pins 540), in this embodiment, the moving assembly 55 further includes several vertical connecting strips 56. These vertical connecting strips 56 are disposed on the side of the lower transverse adjusting plate 554 via a longitudinal guide rail slider structure. The longitudinal moving strips 551 are fixed to the lower side of the corresponding vertical connecting strip 56.
[0066] The longitudinal movement adjustment assembly 553 includes a lower longitudinal adjustment plate 5531, which is fixed to the side of the lower transverse adjustment plate 554 by a vertical guide rail slider structure. The lower longitudinal adjustment plate 5531 is provided with a plurality of lower inclined grooves 5532. A lower guide post 5533 is fixed to the side of the vertical connecting strip 56. The lower guide post 5533 passes through the lower inclined groove 5532. The side plate of the lower longitudinal adjustment plate 5531 is provided with a lower control assembly 555 for controlling the vertical movement of the lower longitudinal adjustment plate 5531. When the lower longitudinal adjustment plate 5531 moves up and down, the lower guide post 5533 moves relative to each other in the lower inclined groove 5532, controlling the longitudinal distance between the vertical connecting strip 56 and the longitudinal movement strip 551 to increase or decrease.
[0067] The longitudinal moving strip 551 is fixed at the bottom of the vertical connecting strip 56. By controlling the longitudinal movement of the vertical connecting strip 56, the longitudinal spacing of the longitudinal moving strip 551 (moving pin 540) can be controlled. At this time, the lower longitudinal adjusting plate 5531 is set on the side of the lower transverse adjusting plate 554 through the vertical guide rail slider. Several downward inclined grooves 5532 are provided on the lower longitudinal adjusting plate 5531. At this time, the downward inclined grooves 5532 are symmetrically distributed at the middle position of the lower longitudinal adjusting plate 5531 / longitudinal moving strip 551. The inclination angle of the downward inclined grooves 5532 is larger as they are further out, that is, the spacing of the downward inclined grooves 5532 gradually increases from top to bottom. At this time, by controlling the lower longitudinal adjusting plate 5531 to move up and down, the lower guide post 5533 can be positioned at different heights in the downward inclined groove 5532, thereby increasing or decreasing the spacing between the lower guide posts 5533, thus adjusting the spacing between the vertical connecting strips 56, and finally achieving the purpose of adjusting the spacing between the longitudinal moving strips 551 (moving pin 540).
[0068] At this time, the vertical movement of the lower longitudinal adjustment plate 5531 is controlled by the lower control component 555. Since the lower longitudinal adjustment plate 5531 is set on the side of the lower transverse adjustment plate 554 via a vertical guide rail slider, the spacing between the lower longitudinal adjustment plates 5531 will also change when the transverse spacing of the lower transverse adjustment plate 554 is adjusted. Therefore, the lower control component 555 is needed to adjust the vertical movement of the lower longitudinal adjustment plate 5531. Thus, in this embodiment, to ensure that the lower longitudinal adjustment plates 5531 do not interfere with each other during transverse and vertical movement, the lower control component 555... Component 555 includes a longitudinal connecting strip 5551 fixed to the lower longitudinal adjusting plate 5531. The other end of the longitudinal connecting strip 5551 passes through the moving groove of the first horizontal plate 542 to the upper side of the first horizontal plate 542. The end of the longitudinal connecting strip 5551 is rotatably provided with a lower roller 5552. The side of the first vertical moving plate 541 is provided with a lower control cylinder 5553. The piston rod of the lower control cylinder 5553 is connected to a lower control plate 5554. The lower control plate 5554 is provided with a lower transverse horizontal groove 5555 on its lower side. The lower roller 5552 moves synchronously up and down and laterally within the lower transverse horizontal groove 5555. The lower longitudinal adjustment plate 5531 is equipped with a lower roller 5552 via a longitudinal connecting strip 5551 on its side. The lower roller 5552 is engaged in the lower transverse horizontal groove 5555 of the lower control plate 5554. Thus, when the lower longitudinal adjustment plate 5531 moves laterally, it can move laterally within the lower transverse horizontal groove 5555 via the lower roller 5552. At the same time, the lower control plate 5554 is moved up and down by the lower control cylinder 5553, thereby realizing the up and down movement of the lower longitudinal adjustment plate 5531.
[0069] During the removal of the tampons, the tampons are inserted via a moving needle 540. However, when placing the tampons in the transfer box, they need to be removed from the moving needle 540. Therefore, in this embodiment, a separation plate 570 is provided on the lower side of the longitudinal moving strip 551. The separation plate 570 is fixed to the side of the lower transverse adjusting plate 554 via a vertical guide rail slider structure. The bottom of the moving needle 540 is lower than the bottom of the separation plate 570. A separation control structure 57 for controlling the up-and-down movement of the separation plate 570 is provided on the side of the separation plate 570. At this time, the bottom of the moving needle 540 is lower than the bottom of the separation plate 570. Thus, when the moving needle 540 inserts the tampons, the separation plate 570 will not affect the normal insertion process. When it is necessary to remove the tampons from the bottom of the moving needle 540, the separation control structure 57 controls the separation plate 570 to detach and move. The separation plate 570 presses down against the tampons, thereby separating the tampons from the moving needle 540 and causing them to fall into the lower slot of the transfer box, thus realizing the movement and collection of the tampons.
[0070] At this time, a groove is provided on the lower side of the longitudinal moving strip 551, and the separating plate 570 is located in the groove. Two moving needles 540 are respectively set on both sides of the longitudinal moving strip 551 at the groove. In this way, the moving needles 540 are on both sides of the groove. When the cotton strip is fixed by the moving needles 540, it is exactly at the lower side of the separating plate 570. Setting two more moving needles 540 can better fix and remove the cotton strip. The separating plate 570 is placed between the two moving needles 540. This does not affect the process of the moving needles 540 inserting the cotton strip. At the same time, when the separating plate 570 moves downward, the cotton strip can be stably pushed out from the lower side of the separating plate 570.
[0071] The separation control structure 57 is used to control the up-and-down movement of the separation plate 570. The separation plate 570 is set on the side of the lower horizontal adjustment plate 554 by a vertical guide rail slider structure, so it also needs to move horizontally synchronously. In this embodiment, the separation control structure 57 includes a separation cylinder 571 fixed on the side of the first horizontal plate 542. The piston rod of the separation cylinder 571 is connected to the separation moving plate 572 that moves up and down. The side of the separation moving plate 572 is provided with a side horizontal groove 573. The side of the separation plate 570 is provided with a side connecting plate 574. The upper side of the side connecting plate 574 is rotatably provided with a side roller 575. The side roller 575 moves up and down and horizontally synchronously in the side horizontal groove 573. Similarly, the upper side of the side connecting plate 574 is engaged with the side horizontal groove 573 by the side roller 575, so that the separation plate 570 can move normally when it moves horizontally with the lower horizontal adjustment plate 554. The separation cylinder 571 controls the up and down movement of the separation moving plate 572, thereby controlling the up and down movement of the separation plate 570.
[0072] When the cotton swab is removed from the transfer table 1 by the moving needle 540, in order to prevent the waste roll from being carried up, in this embodiment, a pressing structure 6 is provided on the upper side of the transfer table 1. The pressing structure 6 includes a pressing cylinder 61 fixed to the side of the transfer table 1. The piston rod of the pressing cylinder 61 is connected to a pressing plate 62. The pressing plate 62 is provided with a plurality of pressing strips extending to the upper side of the transfer table 1. By controlling the up and down movement of the pressing plate 62 by the pressing cylinder 61, the pressing strips can be controlled to press the waste.
[0073] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
[0074] The embodiments described above are merely illustrative of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.
Claims
1. A tampon collecting device, characterized in that, Includes a conveyor table with a waste roll on the side. The transfer box conveying structure is set up in parallel with the transfer table to move the transfer box, and has an empty material rack and a collection material rack at each end; Empty material rack, used to place empty transfer boxes; A collection rack for collecting transfer boxes filled with tampons. The transfer structure is used to remove the cotton strips from the transfer table position, adjust the spacing between adjacent cotton strips to match the sink groove of the transfer box, and move them into the transfer box at the transfer box transfer structure position.
2. The sliver collecting device according to claim 1, characterized in that, The transfer structure includes a longitudinal support, a transverse transfer structure spanning the transfer station and the transfer box. The longitudinal moving plate is installed on the upper side of the longitudinal support. The longitudinal control structure is used to control the longitudinal movement of the longitudinal moving plate on the upper side of the longitudinal support. The moving structure is located on the side of the longitudinal moving plate. The vertical moving structure is controlled by the vertical control structure to move up and down. The moving structure is equipped with a moving needle. After the moving needle is inserted into the cotton strip to be collected, it moves to the empty transfer box under the action of the longitudinal control structure and the vertical control structure.
3. The sliver collecting device according to claim 2, characterized in that, The moving structure includes a first vertical moving plate, a first horizontal plate fixedly disposed on the lower side of the first vertical moving plate, a plurality of moving components disposed on the lower side of the first horizontal plate, the moving components being provided with a plurality of longitudinal moving strips, the moving pins being fixed on the lower side of the longitudinal moving strips, a 552 lateral moving adjustment component for controlling the spacing between the moving components being disposed on the upper side of the first horizontal plate, and a longitudinal moving adjustment component for controlling the spacing between the plurality of longitudinal moving strips being disposed on the side of the first vertical moving plate.
4. The sliver collecting device according to claim 3, characterized in that, The moving component includes a lower lateral adjustment plate, which is fixed to the lower side of the first horizontal plate by a lateral guide rail slider structure. The lateral movement adjustment assembly includes an upper lateral adjustment plate mounted on the upper side of a first horizontal plate via a longitudinal guide rail slider. An upper adjustment cylinder is mounted on the upper side of the upper lateral adjustment plate, and the piston rod of the upper adjustment cylinder is fixed to the first horizontal plate for adjusting the longitudinal movement of the upper lateral adjustment plate on the upper side of the first horizontal plate. The first horizontal plate is provided with a moving groove, the upper horizontal adjustment plate is provided with an upper inclined groove, and the upper side of the lower horizontal adjustment plate is provided with an upper guide post, the upper guide post passing through the moving groove into the upper inclined groove. When the upper adjusting cylinder controls the piston rod to move, the upper guide column moves relative to the upper inclined groove, controlling the lateral spacing of the lower lateral adjusting plate to increase or decrease.
5. The sliver collecting device according to claim 4, characterized in that, The moving component also includes several vertical connecting bars, which are disposed on the side of the lower transverse adjustment plate via a longitudinal guide rail slider structure. The longitudinal moving bars are fixed at the lower position of the corresponding vertical connecting bars. The longitudinal movement adjustment assembly includes a lower longitudinal adjustment plate, which is fixed to the side of the lower transverse adjustment plate by a vertical guide rail slider structure. The lower longitudinal adjustment plate is provided with several downward inclined grooves. A lower guide post is fixed to the side of the vertical connecting strip. The lower guide post passes through the downward inclined groove. The side plate of the lower longitudinal adjustment plate is provided with a lower control assembly for controlling the up and down movement of the lower longitudinal adjustment plate. When the lower longitudinal adjustment plate moves up and down, the lower guide post moves relative to the vertical connecting strip and the longitudinal movement strip, thereby controlling the longitudinal spacing between the vertical connecting strip and the longitudinal movement strip to increase or decrease.
6. The sliver collecting device according to claim 5, characterized in that, The lower control assembly includes a longitudinal connecting strip fixed to the lower longitudinal adjusting plate. The other end of the longitudinal connecting strip passes through the moving groove of the first horizontal plate to the upper side of the first horizontal plate. A lower roller is rotatably provided at the end of the longitudinal connecting strip. A lower control cylinder is provided on the side of the first vertical moving plate. The piston rod of the lower control cylinder is connected to the lower control plate. A lower transverse horizontal groove is provided on the lower side of the lower control plate. The lower roller moves synchronously up and down and laterally within the lower transverse horizontal groove.
7. The sliver collecting device according to claim 6, characterized in that, A separation plate is provided on the lower side of the longitudinal moving bar. The separation plate is fixed to the side of the lower transverse adjusting plate by a vertical guide rail slider structure. The bottom of the moving needle is lower than the lower side of the separation plate. A separation control structure for controlling the up and down movement of the separation plate is provided on the side of the separation plate.
8. The sliver collecting device according to claim 7, characterized in that, The separation control structure includes a separation cylinder fixed to the side of the first horizontal plate. The piston rod of the separation cylinder is connected to a separation moving plate that moves up and down. The side of the separation moving plate is provided with a side transverse horizontal groove. The side of the separation plate is provided with a side connecting plate. A side roller is rotatably provided on the upper side of the side connecting plate. The side roller moves up and down and laterally synchronously in the side transverse horizontal groove.
9. The sliver collecting device according to any one of claims 1 to 8, characterized in that, The upper side of the transmission platform is provided with a pressing structure, which includes a pressing cylinder fixed to the side of the transmission platform. The piston rod of the pressing cylinder is connected to a pressing plate, and the pressing plate is provided with a plurality of pressing strips extending to the upper side of the transmission platform.