A cushioning material quantifying and arranging apparatus
By designing a pad quantitative sorting device, and utilizing the orientation adjustment component and clamping conveyor component inside the machine, the problem of inconvenient pad quantitative dispensing in existing equipment has been solved, realizing rapid quantitative sorting and automated packaging of pads.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEBEI YIYI TECH DEV CO LTD
- Filing Date
- 2025-07-30
- Publication Date
- 2026-06-12
Smart Images

Figure CN224349206U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of soft cushion production technology, specifically to a soft cushion quantitative sorting device. Background Technology
[0002] During the production of cushions, they are collected and repackaged using collection equipment.
[0003] For example, Chinese patent CN214824504U describes a nursing pad collection device, relating to the field of nursing pad production equipment. It includes a conveyor belt, a receiving tray, and a receiving plate arranged sequentially. The outer surface of the receiving tray has a receiving trough, and arc-shaped baffles are provided around the trough. The receiving plate includes a first receiving plate and a second receiving plate. The first receiving plate includes a first baffle, a groove, and a first cylinder. The output end of the first cylinder is connected to a first push plate. The second receiving plate includes a second baffle, a second cylinder, a rotary motor, and a rotating baffle. The second cylinder is fixedly connected to the side of the second baffle, and the output end of the second cylinder has a second push plate. The output end of the rotary motor has a rotating shaft, and the rotating baffle is fixedly connected to the rotating shaft. Nursing pads are conveyed by the conveyor belt through the receiving tray to the collecting plate. Then, under the combined action of the first and second push plates, the nursing pads are squeezed and collected and sent to the next process for packaging. This method is simple, convenient, and saves labor.
[0004] Although the above structure can play a collecting role, it still needs to be quantitatively divided and packaged in a process, and the subsequent quantitative division operation of continuously stacked soft pads is more troublesome.
[0005] Based on this, this utility model designs a soft pad quantitative sorting device. Utility Model Content
[0006] In view of the above-mentioned shortcomings of the existing technology, the present invention provides a soft pad quantitative sorting device.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] A pad quantitative sorting device, comprising a chassis;
[0009] The front sidewall of the chassis is connected at equal intervals with orientation adjustment components for changing the position of the pad from horizontal to vertical.
[0010] The orientation adjustment assembly includes a horizontal drive assembly, an adjustment guide assembly, an oblique drive assembly, a direction adjustment assembly, a receiving assembly, and a pushing assembly. The horizontal drive assembly, adjustment guide assembly, oblique drive assembly, and direction adjustment assembly are all rotatably connected to the chassis. The discharge end of the horizontal drive assembly is adjacent to and aligned with the feed end of the adjustment guide assembly. When the adjustment guide assembly is adjusted to a downward tilt, its discharge end is adjacent to and aligned with the feed end of the oblique drive assembly. When the adjustment guide assembly is adjusted to a horizontal position, its discharge end is adjacent to and aligned with the feed end of the horizontal drive assembly of the next set of orientation adjustment assemblies. The discharge end of the oblique drive assembly moves within the top of the direction adjustment assembly. The receiving assembly and the pushing assembly are both fixedly connected to the chassis. The receiving end of the receiving assembly moves within the end of the direction adjustment assembly away from the oblique drive assembly. The pushing assembly is movably connected to the end of the receiving assembly away from the direction adjustment assembly.
[0011] The chassis is equipped with a clamping conveyor assembly on the front side for pressing and conveying equal amounts of soft pads. The clamping conveyor assembly is located in front of the pushing assembly.
[0012] Furthermore, the horizontal drive assembly includes a fifth conveyor belt and a sixth conveyor belt. The rotating shafts of the fifth and sixth conveyor belts are rotatably connected to the housing via bearings. The fifth conveyor belt is located directly above the sixth conveyor belt, and the fifth and sixth conveyor belts rotate in opposite directions, with the fifth conveyor belt rotating clockwise.
[0013] Furthermore, the adjustment and guiding assembly includes a third conveyor belt, a fourth conveyor belt, and a first cylinder. The bottom of the first cylinder is rotatably connected to the housing via a horizontal shaft. The drive end of the first cylinder is fixedly connected to the third and fourth conveyor belts via a connecting frame. The connecting shafts of the third and fourth conveyor belts near the fifth conveyor belt are rotatably connected to the housing, and the third and fourth conveyor belts rotate in opposite directions. The third conveyor belt rotates clockwise, and the right ends of the third and fourth conveyor belts are adjacent to and aligned with the left ends of the fifth and sixth conveyor belts.
[0014] Furthermore, the inclined drive assembly includes a first conveyor belt, a second conveyor belt, and a second side plate. The connecting shaft of the first conveyor belt is rotatably connected to the housing. The connecting shaft on the right side of the second conveyor belt is rotatably connected to the housing. The connecting shaft on the left side of the second conveyor belt is rotatably connected to the second side plate, and the second side plate is fixedly connected to the housing. The left end of the second side plate and the left end of the second conveyor belt are located inside the top of the direction adjustment assembly. The part of the first conveyor belt at the top of the direction adjustment assembly is tangent to the top of the direction adjustment assembly. When the fourth conveyor belt is horizontal, the left end of the fourth conveyor belt is adjacent to and aligned with the sixth conveyor belt of the next set of orientation adjustment assemblies, and is flush with the top of the next set of orientation adjustment assemblies. When the fourth conveyor belt is inclined, the left end of the fourth conveyor belt is adjacent to and aligned with the second conveyor belt, and the fourth conveyor belt and the second conveyor belt are flush.
[0015] Furthermore, the direction adjustment assembly includes a rotating shaft and turntables. The rotating shaft is rotatably connected to the chassis via bearings. Two sets of turntables are fixedly installed on the rotating shaft. Arc-shaped grooves are evenly spaced along the circumference of the outer edge of the rotating shaft, and the outer ends of the arc-shaped grooves are open. The left end of the second side plate and the left end of the second conveyor belt are located between the two sets of turntables.
[0016] Furthermore, the receiving assembly includes a U-shaped receiving plate, a linear module slide, a support frame, and a first side plate. The support frame is fixedly installed on the side wall of the chassis, and the linear module slide is fixedly installed at the top center of the support frame. The drive end of the linear module slide is fixedly connected to the U-shaped receiving plate. The U-shaped receiving plate moves within two sets of turntables. The support frame has side support plates fixedly connected to both the front and rear ends of the linear module slide. The first side plate is fixedly installed at the right end of the side support plate, and the right end of the first side plate is located on the right side of the left end of the turntable.
[0017] Furthermore, the material pushing assembly includes a pusher plate, a U-shaped guide plate, and a seventh cylinder. The seventh cylinder is fixedly connected to the chassis, and the pusher plate is fixedly connected to the drive end of the seventh cylinder. The pusher plate is higher than the top front side of the side support plate. The left end of the front side support plate is fixedly connected to the U-shaped guide plate, and the right end of the U-shaped guide plate is flush with the left end of the first side plate.
[0018] Furthermore, the clamping conveyor assembly includes a transmission belt, an adjustable clamping assembly, and a clamping guide assembly. Multiple adjustable clamping assemblies are installed at equal intervals along the circumference at the drive end of the transmission belt. The clamping guide assembly is fixedly connected to the frame of the transmission belt. The right end of the clamping guide assembly is located on the left side of the U-shaped guide plate on the left side. When the adjustable clamping assembly contacts the clamping guide assembly, the adjustable clamping assembly is in a clamping state. When the adjustable clamping assembly separates from the clamping guide assembly, the adjustable clamping assembly is in a closed state.
[0019] Beneficial effects
[0020] In this invention, the discharge end of the adjustment guide component within the right-side orientation adjustment assembly is aligned adjacent to the feed end of the inclined drive component of the right-side orientation adjustment assembly. The horizontal drive component of the right-side orientation adjustment assembly conveys the soft pad into the adjustment guide component, which in turn conveys the soft pad into the inclined drive component. The inclined drive component then conveys the soft pad into the direction adjustment component, which rotates the horizontal soft pad to a vertical position and places it layer by layer into the receiving component. Once the receiving component is full, the discharge end of the adjustment guide component within the right-side orientation adjustment assembly rotates to align adjacent to the feed end of the horizontal drive component of the left-side orientation adjustment assembly. The horizontal drive component of the right-side orientation adjustment assembly... The process begins with the soft pad being conveyed to the right-side orientation adjustment component's guiding assembly. This guiding assembly then conveys the soft pad to the left-side orientation adjustment component's horizontal drive assembly. The left-side horizontal drive assembly then conveys the soft pad to the left-side orientation adjustment component's inclined drive assembly, which in turn conveys it to the left-side orientation adjustment component's direction adjustment assembly. The left-side orientation adjustment component's direction adjustment assembly rotates the horizontal soft pad to a vertical position and places it layer by layer into the left-side orientation adjustment component's receiving assembly. Once the left-side orientation adjustment component's receiving assembly is full, the above steps are repeated to allow the two sets of orientation adjustment components to operate alternately, facilitating rapid production. After the receiving assembly is full, the pushing assembly pushes the vertically spaced, quantitative soft pads from the receiving assembly into the clamping conveyor assembly, which then conveys them to the packaging machine's feed end, achieving automated quantitative packaging supply. Attached Figure Description
[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0022] Figure 1 The main structure of this utility model is three-dimensional. Figure 1 ;
[0023] Figure 2 This is a front view of the main body of this utility model;
[0024] Figure 3 This is a left view of the main body of this utility model;
[0025] Figure 4 For along Figure 3A sectional view along the AA direction;
[0026] Figure 5 The clamping conveyor assembly of this utility model has a three-dimensional structure when not installed. Figure 1 ;
[0027] Figure 6 The clamping conveyor assembly of this utility model has a three-dimensional structure when not installed. Figure 2 ;
[0028] Figure 7 This is a schematic diagram of the L-shaped plate and its connection structure.
[0029] The labels in the diagram represent:
[0030] 1. Chassis 2. Orientation Adjustment Component 21. Rotating Shaft 22. Turntable 23. Arc Groove 24. First Conveyor Belt 25. Second Conveyor Belt 26. Third Conveyor Belt 27. Fourth Conveyor Belt 28. First Cylinder 29. Fifth Conveyor Belt 210. Sixth Conveyor Belt 211. U-Shaped Receiving Plate 212. Linear Module Slide Table 213. Support Frame 214. Push Plate 215. First Side Plate 216. U-Shaped Guide Plate 217. Seventh Cylinder 218. Second Side Plate 219. Side Support Plate 3. Clamping Conveying Component 31. Transmission Belt 32. T-Shaped Plate 33. Top Plate 34. L-Shaped Plate 35. Inclined Guide Plate 36. Horizontal Groove 37. Spring 38. Guide Rod 39. Sliding Sleeve 310. Limiting Baffle 311. Rolling Bearing 312. First Wedge Plate 313. Second Wedge Plate 314. L-Shaped Guide Plate. Detailed Implementation
[0031] To make the objectives, technical solutions, and advantages of the embodiments 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 some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.
[0032] The present invention will be further described below with reference to the embodiments.
[0033] In some embodiments: please refer to the appendix to the instruction manual. Figure 1-7 A pad quantitative sorting device, comprising a housing 1;
[0034] The front side wall of the chassis 1 is connected with 2 oriented adjustment components 2 for changing the position of the soft pad from horizontal to vertical.
[0035] The orientation adjustment assembly 2 includes a horizontal drive assembly, an adjustment guide assembly, an oblique drive assembly, a direction adjustment assembly, a receiving assembly, and a pushing assembly. The horizontal drive assembly, the adjustment guide assembly, the oblique drive assembly, and the direction adjustment assembly are all rotatably connected to the housing 1. The discharge end of the horizontal drive assembly is adjacent to and aligned with the feed end of the adjustment guide assembly. When the adjustment guide assembly is adjusted to tilt downwards, the discharge end of the adjustment guide assembly is adjacent to and aligned with the feed end of the oblique drive assembly. When the adjustment guide assembly is adjusted to be horizontal, the discharge end of the adjustment guide assembly is adjacent to and aligned with the feed end of the horizontal drive assembly of the next set of orientation adjustment assemblies 2. The discharge end of the oblique drive assembly moves within the top of the direction adjustment assembly. The receiving assembly and the pushing assembly are both fixedly connected to the housing 1. The receiving end of the receiving assembly moves within the end of the direction adjustment assembly away from the oblique drive assembly. The pushing assembly is movably connected to the end of the receiving assembly away from the direction adjustment assembly.
[0036] The chassis 1 is equipped with a clamping conveying assembly 3 on the front side for pressing and conveying equal amounts of soft pads. The clamping conveying assembly 3 is located in front of the pushing assembly.
[0037] The discharge end of the adjustment guide component in the right-side orientation adjustment component 2 is aligned adjacent to the feed end of the inclined drive component in the right-side orientation adjustment component 2. The horizontal drive component of the right-side orientation adjustment component 2 conveys the soft pad into the adjustment guide component of the right-side orientation adjustment component 2. The adjustment guide component of the right-side orientation adjustment component 2 conveys the soft pad into the inclined drive component of the right-side orientation adjustment component 2. The inclined drive component of the right-side orientation adjustment component 2 conveys the soft pad into the direction adjustment component of the right-side orientation adjustment component 2. The direction adjustment component of the right-side orientation adjustment component 2 rotates the horizontal soft pad to a vertical position and places it layer by layer into the receiving component of the right-side orientation adjustment component 2. After the receiving component of the right-side orientation adjustment component 2 is full, the discharge end of the adjustment guide component in the right-side orientation adjustment component 2 rotates to be aligned adjacent to the feed end of the horizontal drive component of the left-side orientation adjustment component 2. The horizontal drive component of the right-side orientation adjustment component 2 will... The soft pad is conveyed to the adjustment guide component of the right-side orientation adjustment component 2. The adjustment guide component of the right-side orientation adjustment component 2 conveys the soft pad to the horizontal drive component of the left-side orientation adjustment component 2. The horizontal drive component of the left-side orientation adjustment component 2 conveys the soft pad to the oblique drive component of the left-side orientation adjustment component 2. The oblique drive component of the left-side orientation adjustment component 2 conveys the soft pad to the direction adjustment component of the left-side orientation adjustment component 2. The direction adjustment component of the left-side orientation adjustment component 2 rotates the horizontal soft pad to the vertical position and places it layer by layer into the receiving component of the left-side orientation adjustment component 2. After the receiving component of the left-side orientation adjustment component 2 is full, the above actions are repeated to realize the alternating operation of the two sets of orientation adjustment components 2, which is conducive to rapid production. After the receiving component is full, the pushing component pushes the vertically quantitative soft pad in the receiving component into the clamping conveyor component 3, which is then conveyed to the feeding end of the packaging machine to realize automated quantitative packaging supply.
[0038] In some embodiments: the horizontal drive assembly includes a fifth conveyor belt 29 and a sixth conveyor belt 210. The rotation shafts of the fifth conveyor belt 29 and the sixth conveyor belt 210 are rotatably connected to the housing 1 via bearings. The fifth conveyor belt 29 is located directly above the sixth conveyor belt 210, and the fifth conveyor belt 29 and the sixth conveyor belt 210 rotate in opposite directions, with the fifth conveyor belt 29 rotating clockwise.
[0039] The adjustment and guiding assembly includes a third conveyor belt 26, a fourth conveyor belt 27, and a first cylinder 28. The bottom of the first cylinder 28 is rotatably connected to the housing 1 via a horizontal shaft. The drive end of the first cylinder 28 is fixedly connected to the third conveyor belt 26 and the fourth conveyor belt 27 via a connecting frame. The connecting shafts of the third conveyor belt 26 and the fourth conveyor belt 27 near the fifth conveyor belt 29 are rotatably connected to the housing 1, and the third conveyor belt 26 and the fourth conveyor belt 27 rotate in opposite directions. The third conveyor belt 26 rotates clockwise, and the right ends of the third conveyor belt 26 and the fourth conveyor belt 27 are adjacent to and aligned with the left ends of the fifth conveyor belt 29 and the sixth conveyor belt 210.
[0040] The inclined drive assembly includes a first conveyor belt 24, a second conveyor belt 25, and a second side plate 218. The connecting shaft of the first conveyor belt 24 is rotatably connected to the housing 1. The connecting shaft on the right side of the second conveyor belt 25 is rotatably connected to the housing 1. The connecting shaft on the left side of the second conveyor belt 25 is rotatably connected to the second side plate 218, and the second side plate 218 is fixedly connected to the housing 1. The left end of the second side plate 218 and the left end of the second conveyor belt 25 are located inside the top of the direction adjustment assembly. The part of the first conveyor belt 24 located at the top of the direction adjustment assembly is tangent to the top of the direction adjustment assembly. When the fourth conveyor belt 27 is horizontal, the left end of the fourth conveyor belt 27 is adjacent to and aligned with the sixth conveyor belt 210 of the next set of orientation adjustment assemblies 2, and is flush with the top of the next set of orientation adjustment assemblies 2. When the fourth conveyor belt 27 is inclined, the left end of the fourth conveyor belt 27 is adjacent to and aligned with the second conveyor belt 25, and the fourth conveyor belt 27 and the second conveyor belt 25 are flush.
[0041] The direction adjustment assembly includes a rotating shaft 21 and a turntable 22. The rotating shaft 21 is rotatably connected to the housing 1 via bearings. Two sets of turntables 22 are fixedly installed on the rotating shaft 21. Arc-shaped grooves 23 are evenly spaced along the circumferential direction on the outer edge of the rotating shaft 21. The outer ends of the arc-shaped grooves 23 are open. The left end of the second side plate 218 and the left end of the second conveyor belt 25 are located between the two sets of turntables 22.
[0042] The receiving assembly includes a U-shaped receiving plate 211, a linear module slide 212, a support frame 213, and a first side plate 215. The support frame 213 is fixedly installed on the side wall of the chassis 1. The linear module slide 212 is fixedly installed at the top middle of the support frame 213. The drive end of the linear module slide 212 is fixedly connected to the U-shaped receiving plate 211. The U-shaped receiving plate 211 moves within the two sets of turntables 22. The support frame 213 has side support plates 219 fixedly connected to both the front and rear ends of the linear module slide 212. The first side plate 215 is fixedly installed on the right end of the side support plate 219. The right end of the first side plate 215 is located on the right side of the left end of the turntable 22.
[0043] The feeding assembly includes a pusher plate 214, a U-shaped guide plate 216, and a seventh cylinder 217. The seventh cylinder 217 is fixedly connected to the housing 1. The pusher plate 214 is fixedly connected to the drive end of the seventh cylinder 217. The pusher plate 214 is higher than the top front side of the side support plate 219. The left end of the front side support plate 219 is fixedly connected to the U-shaped guide plate 216. The right end of the U-shaped guide plate 216 is flush with the left end of the first side plate 215.
[0044] The third conveyor belt 26, the fourth conveyor belt 27, the first conveyor belt 24, the second conveyor belt 25, the rotating shaft 21, the fifth conveyor belt 29, and the sixth conveyor belt 210 are all connected to the motor, and the motor is fixedly connected to the housing 1.
[0045] The linear module slide 212 of the receiving component in the orientation adjustment assembly 2 on the right moves the U-shaped receiving plate 211 between the two turntables 22. The first cylinder 28 of the adjustment guide assembly drives the discharge ends of the third conveyor belt 26 and the fourth conveyor belt 27 to align with the feed ends of the first conveyor belt 24 and the second conveyor belt 25 of the inclined drive assembly of the orientation adjustment assembly 2 on the right. The fifth conveyor belt 29 and the sixth conveyor belt 210 of the horizontal drive assembly of the orientation adjustment assembly 2 on the right conveyor assembly 2 transport the soft pad into the third conveyor belt 26 and the fourth conveyor belt 27 of the adjustment guide assembly of the orientation adjustment assembly 2 on the right. The third conveyor belt 26 and the fourth conveyor belt 27 of the adjustment guide assembly of the orientation adjustment assembly 2 on the right conveyor assembly 2 transport the soft pad into the inclined drive assembly of the orientation adjustment assembly 2 on the right. Within the first conveyor belt 24 and second conveyor belt 25 of the drive assembly, the first conveyor belt 24 and second conveyor belt 25 of the inclined drive assembly of the right-side orientation adjustment assembly 2 transport the soft pad to the arc groove 23 of the turntable 22 of the orientation adjustment assembly 2 on the right side. The rotating shaft 21 of the orientation adjustment assembly 2 on the right side drives the turntable 22 to rotate, and the turntable 22 rotates the soft pad from the horizontal direction to the vertical direction. After the soft pad contacts the U-shaped receiving plate 211 and the side support plate 219, it separates from the arc groove 23. After one soft pad is placed in the U-shaped receiving plate 211, the linear module slide 212 moves to the left by the thickness of the soft pad. This operation is repeated to place the soft pad layer by layer into the U-shaped receiving plate of the receiving assembly of the orientation adjustment assembly 2 on the right side. Inside 211, after the U-shaped receiving plate 211 of the receiving component of the orientation adjustment assembly 2 on the right is full, the first cylinder 28 of the adjustment guide component inside the orientation adjustment assembly 2 on the right drives the third conveyor belt 26 and the fourth conveyor belt 27 to rotate. The discharge ends of the third conveyor belt 26 and the fourth conveyor belt 27 rotate to align with the feed ends of the fifth conveyor belt 29 and the sixth conveyor belt 210 of the horizontal drive component of the orientation adjustment assembly 2 on the left. The fifth conveyor belt 29 and the sixth conveyor belt 210 of the horizontal drive component of the orientation adjustment assembly 2 on the right then convey the soft pad into the third conveyor belt 26 and the fourth conveyor belt 27 of the adjustment guide component of the orientation adjustment assembly 2 on the right. Belt 27 conveys the soft pad to the fifth conveyor belt 29 and the sixth conveyor belt 210 of the horizontal drive assembly of the left-side orientation adjustment component 2. The fifth conveyor belt 29 and the sixth conveyor belt 210 of the horizontal drive assembly of the left-side orientation adjustment component 2 convey the soft pad to the third conveyor belt 26 and the fourth conveyor belt 27 of the adjustment guide assembly of the left-side orientation adjustment component 2. The third conveyor belt 26 and the fourth conveyor belt 27 of the adjustment guide assembly of the left-side orientation adjustment component 2 convey the soft pad to the third conveyor belt 26 and the fourth conveyor belt 27 of the oblique drive assembly. The third conveyor belt 26 and the fourth conveyor belt 27 of the oblique drive assembly of the left-side orientation adjustment component 2 convey the soft pad to the arc-shaped groove 23 of the turntable 22 of the direction adjustment assembly of the left-side orientation adjustment component 2.The turntable 22 of the orientation adjustment component 2 on the left rotates the horizontal soft pads to a vertical position and places them layer by layer into the U-shaped receiving plate 211 of the receiving component on the left. Once the U-shaped receiving plate 211 of the receiving component on the left is full, the above action is repeated to achieve alternating operation of the two sets of orientation adjustment components 2, facilitating rapid production. After the receiving component is full, the U-shaped receiving plate 211 of the receiving component moves to the front of the push plate 214. The seventh cylinder 217 of the push component drives the push plate 214 to move. The push plate 214 pushes the vertically spaced, quantitative soft pads in the U-shaped receiving plate 211 of the receiving component through the U-shaped guide plate 216 and into the clamping conveyor component 3, which then conveys them to the feeding end of the packaging machine, realizing automated quantitative packaging supply.
[0046] In some embodiments: the clamping conveyor assembly 3 includes a transmission belt 31, an adjustable clamping assembly and a clamping guide assembly. Multiple sets of adjustable clamping assemblies are installed at equal intervals along the circumference at the drive end of the transmission belt 31. The clamping guide assembly is fixedly connected to the frame of the transmission belt 31. The right end of the clamping guide assembly is located on the left side of the U-shaped guide plate 216 on the left side. When the adjustable clamping assembly contacts the clamping guide assembly, the adjustable clamping assembly is in a clamping state. When the adjustable clamping assembly separates from the clamping guide assembly, the adjustable clamping assembly is in a closed state.
[0047] The adjustable clamping assembly includes a T-shaped plate 32, an L-shaped plate 34, a spring 37, a guide rod 38, a rolling bearing 311, a first wedge plate 312, a second wedge plate 313, an L-shaped guide plate 314, and a sliding sleeve 39. The L-shaped plate 34 is fixedly installed on the drive end of the transmission belt 31. A transverse groove 36 is provided at the end of the transverse portion of the L-shaped plate 34. The end of the transverse groove 36 near the vertical portion of the L-shaped plate 34 is fixedly connected to one end of the spring 37 and the guide rod 38. The spring 37 is sleeved on the guide rod 38. The other end of the spring 37 is fixedly connected to the T-shaped plate 32. The T-shaped plate 32 is connected to the guide rod 38 through a sliding hole. The T-shaped plate 32 is slidably connected to the inner wall of the transverse groove 36. The bottom of the T-shaped plate 32 is fixedly connected to the top of the second wedge plate 313. Two sets of L-shaped guide plates 314 are fixedly installed at the ends of the transverse portion of the L-shaped plate 34. The sliding sleeve 39 is slidably connected to the vertical portion of the L-shaped guide plate 314 through the sliding hole. The first wedge plate 312 is fixedly installed between the sliding sleeves 39. The inclined surface of the first wedge plate 312 is slidably connected to the inclined surface of the second wedge plate 313. The bottom of the first wedge plate 312 is rotatably connected to the rolling bearing 311. The rolling bearing 311 is movably connected to the clamping guide assembly.
[0048] The bottom of the L-shaped guide plate 314 is fixedly connected to the limiting baffle 310, and when the sliding sleeve 39 is at the lowest end, the top of the limiting baffle 310 and the top of the sliding sleeve 39 are in a sliding connection.
[0049] The limiting baffle 310 prevents the sliding sleeve 39 from falling off the L-shaped guide plate 314.
[0050] The clamping guide assembly includes a top plate 33 and an inclined guide plate 35. The top plate 33 is fixedly connected to the frame of the transmission belt 31. The inclined guide plate 35 is fixedly installed on the right end of the top plate 33. The right end of the inclined guide plate 35 is located on the left side of the U-shaped guide plate 216 of the orientation adjustment assembly 2 on the left side.
[0051] When the drive belt 31 of the clamping conveyor assembly 3 rotates counterclockwise, it drives the L-shaped plate 34 of the adjustable clamping assembly. When the rolling bearing 311 is not in contact with the top plate 33 and the inclined guide plate 35 of the clamping guide assembly, the first wedge plate 312 moves downward under the action of the first wedge plate 312 and the rolling bearing 311. The restoring force of the spring 37 pushes the T-shaped plate 32 to move along the guide rod 38 away from the vertical part of the L-shaped plate 34, increasing the distance between the vertical part of the L-shaped plate 34 and the T-shaped plate 32. The push plate 214 pushes the vertically metered soft pad inside the U-shaped receiving plate 211 of the receiving assembly through the U-shaped guide plate 216 and into the space between the T-shaped plate 32 and the L-shaped plate 34 of the clamping conveyor assembly 3. 31. The T-shaped plate 32 and L-shaped plate 34 continue to move. The rolling bearing 311 first contacts the inclined guide plate 35 and pushes the rolling bearing 311 to move upward. With the cooperation of the L-shaped guide plate 314 and the sliding sleeve 39, the first wedge plate 312 moves upward. The first wedge plate 312 pushes the second wedge plate 313 to move towards the vertical part of the L-shaped plate 34. The second wedge plate 313 drives the T-shaped plate 32 to move towards the vertical part of the L-shaped plate 34. The vertical parts of the T-shaped plate 32 and the L-shaped plate 34 cooperate to press the vertical quantitative soft pads in the vertical parts of the T-shaped plate 32 and the L-shaped plate 34. The spring 37 is in a compressed state. The rolling bearing 311 continues to move along the top plate 33 until it is conveyed to the feeding end of the packaging machine to realize automated quantitative packaging supply.
[0052] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions will not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.
Claims
1. A pad quantitative sorting device, comprising a chassis (1), characterized in that... ; The front side wall of the chassis (1) is connected with 2 at equal intervals for adjusting the orientation of the pad from horizontal to vertical. The orientation adjustment assembly (2) includes a horizontal drive assembly, an adjustment guide assembly, an oblique drive assembly, a direction adjustment assembly, a receiving assembly, and a pushing assembly. The horizontal drive assembly, the adjustment guide assembly, the oblique drive assembly, and the direction adjustment assembly are all rotatably connected to the chassis (1). The discharge end of the horizontal drive assembly is adjacent to and aligned with the feed end of the adjustment guide assembly. When the adjustment guide assembly is adjusted to tilt downwards, the discharge end of the adjustment guide assembly is adjacent to and aligned with the feed end of the oblique drive assembly. When the adjustment guide assembly is adjusted to be horizontal, the discharge end of the adjustment guide assembly is adjacent to and aligned with the feed end of the horizontal drive assembly of the next set of orientation adjustment assemblies (2). The discharge end of the oblique drive assembly moves within the top of the direction adjustment assembly. The receiving assembly and the pushing assembly are both fixedly connected to the chassis (1). The receiving end of the receiving assembly moves within the end of the direction adjustment assembly away from the oblique drive assembly. The pushing assembly is movably connected to the end of the receiving assembly away from the direction adjustment assembly. The chassis (1) is provided with a clamping conveyor assembly (3) for pressing and conveying equal amounts of soft pads on the front side, and the clamping conveyor assembly (3) is located in front of the pusher assembly.
2. The pad quantitative sorting device according to claim 1, characterized in that, The horizontal drive assembly includes a fifth conveyor belt (29) and a sixth conveyor belt (210). The rotating shafts of the fifth conveyor belt (29) and the sixth conveyor belt (210) are rotatably connected to the housing (1) via bearings. The fifth conveyor belt (29) is located directly above the sixth conveyor belt (210), and the fifth conveyor belt (29) and the sixth conveyor belt (210) rotate in opposite directions. The fifth conveyor belt (29) rotates clockwise.
3. The pad quantitative sorting device according to claim 2, characterized in that, The adjustment guide assembly includes a third conveyor belt (26), a fourth conveyor belt (27), and a first cylinder (28). The bottom of the first cylinder (28) is rotatably connected to the housing (1) via a horizontal shaft. The drive end of the first cylinder (28) is fixedly connected to the third conveyor belt (26) and the fourth conveyor belt (27) via a connecting frame. The connecting shaft of the third conveyor belt (26) and the fourth conveyor belt (27) near the fifth conveyor belt (29) is rotatably connected to the housing (1). The third conveyor belt (26) and the fourth conveyor belt (27) rotate in opposite directions. The third conveyor belt (26) rotates clockwise. The right end of the third conveyor belt (26) and the fourth conveyor belt (27) is adjacent to and aligned with the left end of the fifth conveyor belt (29) and the sixth conveyor belt (210).
4. The pad quantitative sorting device according to claim 3, characterized in that, The inclined drive assembly includes a first conveyor belt (24), a second conveyor belt (25), and a second side plate (218). The connecting shaft of the first conveyor belt (24) is rotatably connected to the housing (1). The connecting shaft on the right side of the second conveyor belt (25) is rotatably connected to the housing (1). The connecting shaft on the left side of the second conveyor belt (25) is rotatably connected to the second side plate (218), and the second side plate (218) is fixedly connected to the housing (1). The left end of the second side plate (218) and the left end of the second conveyor belt (25) are located inside the top of the direction adjustment assembly. The first conveyor belt (24) is located at the top of the direction adjustment component and is tangent to the top of the direction adjustment component. When the fourth conveyor belt (27) is horizontal, the left end of the fourth conveyor belt (27) is adjacent to and aligned with the sixth conveyor belt (210) of the next set of orientation adjustment components (2), and is flush with the top of the next set of orientation adjustment components (2). When the fourth conveyor belt (27) is inclined, the left end of the fourth conveyor belt (27) is adjacent to and aligned with the second conveyor belt (25), and the fourth conveyor belt (27) and the second conveyor belt (25) are flush.
5. The pad quantitative sorting device according to claim 4, characterized in that, The direction adjustment assembly includes a rotating shaft (21) and a turntable (22). The rotating shaft (21) is rotatably connected to the housing (1) through a bearing. Two sets of turntables (22) are fixedly installed on the rotating shaft (21). The outer edge of the rotating shaft (21) is provided with arc-shaped grooves (23) at equal intervals along the circumference. The outer end of the arc-shaped grooves (23) is open. The left end of the second side plate (218) and the left end of the second conveyor belt (25) are located between the two sets of turntables (22).
6. The pad quantitative sorting device according to claim 5, characterized in that, The receiving assembly includes a U-shaped receiving plate (211), a linear module slide (212), a support frame (213), and a first side plate (215). The support frame (213) is fixedly installed on the side wall of the chassis (1). The linear module slide (212) is fixedly installed at the top middle of the support frame (213). The drive end of the linear module slide (212) is fixedly connected to the U-shaped receiving plate (211). The U-shaped receiving plate (211) moves within the two sets of turntables (22). The support frame (213) has side support plates (219) fixedly connected to both the front and rear ends of the linear module slide (212). The first side plate (215) is fixedly installed at the right end of the side support plate (219). The right end of the first side plate (215) is located on the right side of the left end of the turntable (22).
7. The pad quantitative sorting device according to claim 6, characterized in that, The pushing assembly includes a pusher plate (214), a U-shaped guide plate (216), and a seventh cylinder (217). The seventh cylinder (217) is fixedly connected to the housing (1). The pusher plate (214) is fixedly connected to the drive end of the seventh cylinder (217). The pusher plate (214) is higher than the top front side of the side support plate (219). The left end of the front side support plate (219) is fixedly connected to the U-shaped guide plate (216). The right end of the U-shaped guide plate (216) is flush with the left end of the first side plate (215).
8. The pad quantitative sorting device according to claim 7, characterized in that, The clamping conveyor assembly (3) includes a transmission belt (31), an adjustable clamping assembly, and a clamping guide assembly. Multiple adjustable clamping assemblies are installed at equal intervals along the circumference at the drive end of the transmission belt (31). The clamping guide assembly is fixedly connected to the frame of the transmission belt (31). The right end of the clamping guide assembly is located on the left side of the U-shaped guide plate (216) on the left side. When the adjustable clamping assembly contacts the clamping guide assembly, the adjustable clamping assembly is in a clamping state. When the adjustable clamping assembly separates from the clamping guide assembly, the adjustable clamping assembly is in a closed state.