A rubbing machine for woven bag production

Abstract

This utility model discloses a kneading machine for woven bag production, relating to the field of woven bag production equipment. The utility model includes a kneading box, inside which are installed a main movable roller and an auxiliary movable roller. Both ends of the main movable roller are connected to rotating shafts, which are rotatably connected to the kneading box. Both ends of the auxiliary movable roller are connected to movable shafts, which are movably connected to the kneading box. A primary transmission belt is fitted between the rotating shaft and the movable shaft. The kneading box also contains a support roller, both ends of which are connected to rolling shafts, which are rotatably connected to the kneading box. A secondary transmission belt is fitted between the movable shaft and the rolling shaft. With the auxiliary movable roller rotating, the secondary transmission belt drives the support roller to rotate, and at the same time, a material-dispensing plate rotates to smoothly dispense the kneaded mud and impurities, making operation quick and easy.

Description

Technical Field

[0001] This utility model relates to the field of woven bag production equipment, and in particular to a kneading machine for woven bag production. Background Technology

[0002] Waste woven bags are usually recycled and reprocessed during the production of woven bags to improve the utilization efficiency of plastic resources. Waste woven bags usually contain mud and debris after use, so they need to be effectively cleaned before production and processing.

[0003] Current cleaning methods typically involve manual labor combined with stirring or vibration mechanisms. However, the cleaning results vary, and some mud and debris can only be removed by squeezing and rubbing. Therefore, current cleaning methods have certain limitations. Utility Model Content

[0004] The main objective of this invention is to provide a kneading machine for woven bag production, in order to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows: This utility model relates to a kneading machine for woven bag production, including a kneading box. A main movable roller and an auxiliary movable roller are respectively installed inside the kneading box. Both ends of the main movable roller are connected to rotating shafts, which are rotatably connected to the kneading box. Both ends of the auxiliary movable roller are connected to movable shafts, which are movably connected to the kneading box. A primary transmission belt is fitted between the rotating shaft and the movable shaft. A support roller is also installed inside the kneading box. Both ends of the support roller are connected to rolling shafts, which are rotatably connected to the kneading box. A secondary transmission belt is fitted between the movable shaft and the rolling shaft. While the auxiliary movable roller rotates, the support roller is driven to rotate via the secondary transmission belt.

[0006] Furthermore, both the main moving roller and the auxiliary moving roller have several protrusions on their outer surfaces, and a material-pushing plate is connected to the outer periphery of the support roller to push out the mud and impurities produced by kneading.

[0007] Furthermore, a tray is installed inside the kneading box, and a hydraulic support rod is connected to the bottom of the kneading box. The top of the hydraulic support rod is connected to the tray, and several protrusions are connected to the upper surface of the tray. The upper part of the tray is adapted to the positions of the main moving roller and the auxiliary moving roller, respectively, to squeeze and knead the woven bag.

[0008] Furthermore, a drive motor is installed on the outside of the kneading box, the output end of the drive motor is connected to a drive shaft, one end of the drive shaft is connected to a rotating shaft, a fixing component is connected to one side of the drive motor, and one end of the fixing component is connected to the kneading box.

[0009] Furthermore, sliders are connected to both sides of the tray, and a groove is provided on the inner surface of the kneading box. The sliders slide in conjunction with the groove, and the longitudinal sliding mechanism, in conjunction with the hydraulic support rod, adjusts the height of the tray.

[0010] Furthermore, a filter plate is connected to the surface of the tray, a support plate is connected to the lower end of the kneading box, a water collection tank is connected to the inner side of the support plate, and the position of the filter plate is adapted to the water collection tank to collect the water produced during kneading.

[0011] Furthermore, both sides of the kneading box are provided with drain ports, and a cover plate is installed on the outside of the drain ports. A roller shaft is connected to one side of the cover plate, and the roller shaft is rotatably connected to the kneading box. The cover plate blocks the drain ports.

[0012] Compared with the prior art, the present invention has the following beneficial effects:

[0013] This utility model designs a rubbing machine for woven bag production. The woven bags to be cleaned are put into the rubbing box. The main moving roller and the auxiliary moving roller, together with the support plate, can squeeze and rub the woven bags to squeeze out the mud and impurities contained in the woven bags, thereby improving the cleaning effect of the woven bags. Moreover, the rubbing mechanism only requires one set of power mechanism, and the overall structure is driven by belt drive, which has high operating efficiency. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the overall structure of the tumbling machine for woven bag production according to this utility model;

[0015] Figure 2 This utility model Figure 1 Side view;

[0016] Figure 3 This utility model Figure 2 A cross-sectional view of the AA plane;

[0017] Figure 4 This utility model Figure 2 A cross-sectional view of the BB plane;

[0018] Figure 5 This utility model Figure 2 A sectional view of the C-plane;

[0019] Figure 6 This utility model Figure 3 A magnified view of a section at point D.

[0020] In the diagram: 1. Kneading box; 101. Main moving roller; 1011. Rotating shaft; 102. Secondary moving roller; 1021. Moving shaft; 103. Primary transmission belt; 104. Drain outlet; 1041. Roller shaft; 1042. Blind plate; 105. Slide chute; 2. Idler roller; 201. Rolling shaft; 202. Secondary transmission belt; 203. Material feeding plate; 3. Drive motor; 301. Drive shaft; 302. Fixing component; 4. Support plate; 401. Protrusion; 402. Hydraulic support rod; 403. Filter plate; 5. Water collection tank; 6. Support plate. Detailed Implementation

[0021] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. All other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model. The preferred embodiments of this utility model will now be described in more detail with reference to the accompanying drawings. Although the preferred embodiments of this utility model are shown in the drawings, it should be understood that this utility model can be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided to make this utility model more thorough and complete, and to fully convey the scope of this utility model to those skilled in the art.

[0022] Example:

[0023] Please refer to Figures 1-6As shown, a kneading machine for woven bag production includes a kneading box 1. A main movable roller 101 and an auxiliary movable roller 102 are respectively installed inside the kneading box 1. Both ends of the main movable roller 101 are connected to rotating shafts 1011, which are rotatably connected to the kneading box 1. The main movable roller 101 rotates in coordination with the rotating shafts 1011. Both ends of the auxiliary movable roller 102 are connected to movable shafts 1021, which are rotatably connected to the kneading box 1. The auxiliary movable roller 102 rotates in coordination with the movable shafts 1021. A primary transmission belt 103 is fitted between the rotating shafts 1011 and the movable shafts 1021. When the rotating shafts 1011 rotate, the primary transmission belt 103 drives the movable shafts 1021 to rotate, thus kneading the bag. Inside the kneading box 1, there is also a roller 2. Both ends of the roller 2 are connected to a rolling shaft 201. The rolling shaft 201 is tumblingly connected to the kneading box 1. The roller 2 rotates in coordination with the rolling shaft 201. A secondary transmission belt 202 is fitted between the movable shaft 1021 and the rolling shaft 201. When the movable shaft 1021 rotates, it drives the rolling shaft 201 to rotate through the secondary transmission belt 202. At this time, the roller 2 rotates. The outer surfaces of the main movable roller 101 and the auxiliary movable roller 102 are provided with several protrusions 401. The protrusions 401 are used to squeeze the woven bag and improve the kneading effect. A material-dispensing plate 203 is connected to the outer periphery of the roller 2. When the roller 2 rotates, the material-dispensing plate 203 flips sequentially to dispense the kneaded impurities to the outside of the kneading box 1.

[0024] The kneading box 1 is equipped with a tray 4. A hydraulic support rod 402 is connected to the bottom of the kneading box 1. The top of the hydraulic support rod 402 is connected to the tray 4. The height of the tray 4 is adjusted by the telescopic performance of the hydraulic support rod 402. Several protrusions are connected to the upper surface of the tray 4. The woven bag is placed on the tray 4. The surface protrusions, together with the outer protrusions 401 of the movable roller, squeeze the woven bag from both sides to improve the kneading degree of the woven bag. The upper part of the tray 4 is adapted to the positions of the main movable roller 101 and the auxiliary movable roller 102 to form a symmetrical kneading position of the woven bag. A drive motor 3 is installed on the outside of the kneading box 1. The output end of the drive motor 3 is connected to a drive shaft 301. One end of the drive shaft 301 is connected to a rotating shaft 1011. The drive motor 3 drives the rotating shaft 1011 to rotate through the drive shaft 301. A fixing part 302 is connected to one side of the drive motor 3. One end of the fixing part 302 is connected to the kneading box 1. The drive motor 3 is connected and fixed by the fixing part 302. The drive motor 3 can be made using existing equipment.

[0025] Both sides of the tray 4 are connected to sliders, and the inner surface of the kneading box 1 is provided with a sliding groove 105. The sliders slide in cooperation with the sliding groove 105. The height position of the tray 4 is adjusted by the sliders and the sliding groove 105, and the movement stability of the tray 4 is strong. The surface of the tray 4 is connected to a filter plate 403, and the lower end of the kneading box 1 is connected to a support plate 6. The inner side of the support plate 6 is connected to a water collection tank 5. The lower part of the filter plate 403 is adapted to the position of the water collection tank 5. The water from the kneading of the woven bag is filtered out by the filter plate 403 and collected in the water collection tank 5. The filtered mud and impurities are on the surface of the filter plate 403 and are removed with the help of the material ejector plate 203.

[0026] Both sides of the kneading box 1 are provided with drain ports 104 to discharge the kneaded mud and debris. A cover plate 1042 is installed on the outside of the drain port 104. A roller shaft 1041 is connected to one side of the cover plate 1042. The roller shaft 1041 is rotatably connected to the kneading box 1. The cover plate 1042 covers the drain port 104. The cover plate 1042 can be flipped with the roller shaft 1041. When the mud and debris are pushed out by the feed plate 203, they squeeze and push the cover plate 1042. The cover plate 1042 is flipped open with the roller shaft 1041 to discharge the mud and debris.

[0027] This utility model relates to a woven bag production rubbing machine. The woven bags to be cleaned are placed into the rubbing box 1 at the corresponding positions between the main moving roller 101 and the auxiliary moving roller 102. The woven bags can fall directly onto the tray 4 through the gap between the main moving roller 101 and the auxiliary moving roller 102. The drive motor 3 drives the rotating shaft 1011 via the drive shaft 301. The main moving roller 101 rotates, and the auxiliary moving rollers 102 are installed on both sides of it. The rotating shaft 1011, in conjunction with the primary transmission belt 103, drives the moving shafts 1021 at both ends of the auxiliary moving rollers 102. At this time, the main moving roller 101 and the auxiliary moving rollers 102 rotate synchronously. Even thicker woven bags can be rubbed down. The main movable roller 101 and the auxiliary movable roller 102 can be moved downward by the downward squeezing force when the movable roller is running, and reach the support plate 4. Several protrusions are connected to the upper end of the support plate 4. They work with the outer protrusion 401 of the movable roller to squeeze the woven bag from both sides, kneading the mud and debris contained in the woven bag. During the squeezing process, the woven bag is pushed to one side by the squeezing force when the movable roller rotates. At this time, the woven bag is squeezed and displaced at the same time. The support plate 4 uses the bottom hydraulic support rod 402 and the sliding mechanism on both sides to adjust the height, so as to adjust the distance between the protrusions and the protrusions 401, and adapt to the squeezing of woven bags of different thicknesses or different numbers.

[0028] Inside the kneading box 1, there is also a roller 2. The roller 2 is connected to the rolling shaft 201 at both ends. The rolling shaft 201 is connected to the movable shaft 1021 by a secondary transmission belt 202. That is, when the auxiliary movable roller 102 is running, it drives the roller 2 to run in conjunction with the secondary transmission belt 202. At this time, the material-pushing plate 203 pushes out the kneaded mud and impurities. It should be noted that the drive motor 3 can rotate in both directions and the operation of the drive motor 3 can be preset, such as setting a fixed number of forward rotations and reverse rotations, so as to knead the woven bag in both directions and improve the operation effect.

[0029] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A rubbing machine for woven bag production comprising a rubbing box (1), characterized by: The kneading box (1) is equipped with a main moving roller (101) and a secondary moving roller (102). The main moving roller (101) is connected to a rotating shaft (1011) at both ends, and the rotating shaft (1011) is rotatably connected to the kneading box (1). The secondary moving roller (102) is connected to a moving shaft (1021) at both ends, and the moving shaft (1021) is movably connected to the kneading box (1). A primary transmission belt (103) is fitted between the rotating shaft (1011) and the moving shaft (1021). The kneading box (1) is also equipped with a roller (2), and both ends of the roller (2) are connected to a rolling shaft (201). The rolling shaft (201) is tumblingly connected to the kneading box (1), and a secondary transmission belt (202) is fitted between the movable shaft (1021) and the rolling shaft (201).

2. A rubbing machine for woven bag production according to claim 1, characterized in that: The outer surfaces of the main moving roller (101) and the auxiliary moving roller (102) are provided with several protrusions (401), and the outer periphery of the idler roller (2) is connected to a material feeding plate (203).

3. A rubbing machine for woven bag production according to claim 1, characterized in that: The kneading box (1) is equipped with a tray (4). A hydraulic support rod (402) is connected to the bottom of the kneading box (1). The top of the hydraulic support rod (402) is connected to the tray (4). Several protrusions are connected to the upper surface of the tray (4). The upper part of the tray (4) is adapted to the positions of the main moving roller (101) and the auxiliary moving roller (102).

4. A rubbing machine for woven bag production according to claim 1, characterized in that: A drive motor (3) is installed on the outside of the kneading box (1). The output end of the drive motor (3) is connected to a drive shaft (301). One end of the drive shaft (301) is connected to a rotating shaft (1011). A fixing part (302) is connected to one side of the drive motor (3). One end of the fixing part (302) is connected to the kneading box (1).

5. A rubbing machine for woven bag production as claimed in claim 3, characterized in that: The tray (4) is connected to sliders on both sides, and the inner surface of the kneading box (1) is provided with a groove (105), and the sliders slide in cooperation with the groove (105).

6. A kneading machine for woven bag production according to claim 3, characterized in that: The tray (4) is connected to a filter plate (403), the lower end of the kneading box (1) is connected to a support plate (6), the inner side of the support plate (6) is connected to a water collection tank (5), and the lower part of the filter plate (403) is adapted to the position of the water collection tank (5).

7. A kneading machine for woven bag production according to claim 1, characterized in that: The kneading box (1) is provided with drain ports (104) on both sides. A cover plate (1042) is installed on the outside of the drain port (104). A roller shaft (1041) is connected to one side of the cover plate (1042). The roller shaft (1041) is rotatably connected to the kneading box (1).

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