Resin anchor follow-up type package cutting device
By designing a resin anchoring agent follow-up packaging cutting device, the cutter moves synchronously with the resin anchoring agent, solving the problem that traditional cutting devices need to pause the conveying process, improving production efficiency and extending the service life of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- INNER MONGOLIA ZHONGCHENG HETAI HI TECH CO LTD
- Filing Date
- 2025-06-12
- Publication Date
- 2026-06-16
Smart Images

Figure CN224360271U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of resin anchoring agent production technology, and in particular to a resin anchoring agent follow-up packaging and cutting device. Background Technology
[0002] In the production process of resin anchoring agents, the packaging and cutting process is one of the important steps.
[0003] Traditional resin anchoring agent packaging cutting devices typically use a fixed cutting mechanism, which requires pausing the conveying of the finished anchoring agent during cutting and waiting for the cutting operation to be completed before resuming conveying. This method has obvious drawbacks. Frequent pausing and starting not only wastes time and reduces production efficiency, but also easily impacts the conveying system and affects the service life of the equipment. Therefore, a resin anchoring agent follow-up packaging cutting device is needed. Utility Model Content
[0004] The purpose of this application is to provide a resin anchoring agent follow-up packaging cutting device to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this application provides the following technical solution: a resin anchoring agent follow-up packaging cutting device, including a frame with two vertical plates, a plurality of rotatably mounted guide wheels arranged horizontally on the frame, a cutting plate fixed to the inner side of the frame being installed at intervals in the middle of the plurality of guide wheels, and a drive mechanism for driving the plurality of guide wheels to rotate synchronously in the same direction.
[0006] The upper ends of the two vertical plates of the frame are fixed with fixed plates, and a movable block is slidably connected between the two fixed plates. The sliding direction of the movable block is generally inclined downward. The lower end of the movable block is connected to a cutter through a connector. After the cutter moves with the movable block, the blade abuts against the upper surface of the cutting plate.
[0007] One of the fixed plates has a drive assembly installed on its outer side that drives the movable block to slide.
[0008] Preferably, guide slides are provided on both fixed plates, the overall extension direction of the guide slides is inclined downward, and slide rods are fixed at both ends of the movable block. The slide rods move through the guide slides, and limit blocks are fixed on the outside of the two fixed plates.
[0009] Preferably, the guide slide includes a horizontal section, an inclined section, and an inclined pressure section;
[0010] The horizontal section is located at the end of the fixed plate away from the cutting plate, and the horizontal section is set parallel to the movement direction of the resin anchoring agent product. The inclined section is connected to the end of the horizontal section near the cutting plate and extends downward at an inclination. The upper end of the inclined pressure section is connected to the end of the inclined section away from the horizontal section. The inclination angle of the inclined pressure section is greater than the inclination angle of the inclined section, and the inclination angle of the inclined pressure section is less than 85°.
[0011] Preferably, the upper end of the cutting plate is provided with a cutting groove, and when the slide rod moves to the lower end of the inclined pressure section of the guide slide, the cutting edge of the cutter is pressed into the cutting groove.
[0012] Preferably, the connector includes an adjusting screw and a guide rod, both of which are vertically arranged. The adjusting screw is threaded through the movable block and its lower end is rotatably connected to the upper end of the cutter. The guide rod slides through the movable block and its lower end is fixed to the upper end of the cutter.
[0013] Preferably, a spring is fixed to the lower end of the movable block, and the lower end of the spring is fixed to the upper end of the cutter.
[0014] Preferably, the drive assembly includes a drive block and an electric push rod. The electric push rod is fixed to the outside of the fixed plate. The piston rod of the electric push rod extends horizontally and its end is fixed to the drive block. A vertically extending slide groove is provided on the drive block. One end of the slide rod is movably inserted into the slide groove, and the limiting block is slidably embedded in the slide groove.
[0015] The vertical length of the chute is consistent with the vertical span of the guide track.
[0016] In summary, the technical effects and advantages of this utility model are as follows:
[0017] 1. In this utility model, the moving block is driven to tilt and slide downward by the driving component, and the horizontal movement speed of the moving block is equal to the movement speed of the resin anchor. This allows the moving block to drive the cutter to move synchronously with the part of the resin anchor to be cut, and at the same time, the cutter moves downward, so that the blade of the cutter abuts against the cutting plate and cuts the resin anchor. After cutting, the driving component reverses its work to reset the moving block and the cutter, thus completing the cutting operation of the resin anchor. Compared with the fixed cutting device in the prior art, the following cutting device can cut the resin anchor during the movement of the finished product without stopping the conveying, saving a lot of time and significantly improving production efficiency.
[0018] 2. In this utility model, by rotating the adjusting screw, the cutter is raised and lowered, thereby adjusting the vertical distance between the lower end of the cutter and the cutting plate. When the blade of the cutter is worn, the operator can grind the blade and then lower the cutter by rotating the adjusting screw, so that the blade can maintain a uniform horizontal height, thus allowing the cutter to be used continuously and avoiding the need for frequent cutter replacement. The guide rod can ensure the stable raising and lowering of the cutter, and the spring can apply tension to the cutter, thereby ensuring that the cutter is fixed in position before and after adjustment and improving the stability of the cutter. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this application 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 application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the three-dimensional structure in this embodiment;
[0021] Figure 2 This is a schematic diagram of the cross-section structure in this embodiment;
[0022] Figure 3 This is a schematic diagram of the connection structure between the active block, the driving block, and the cutter in this embodiment.
[0023] In the diagram: 1. Frame; 11. Cutting plate; 111. Groove; 2. Guide wheel; 3. Fixed plate; 31. Guide slide; 4. Movable block; 41. Slide rod; 411. Limiting block; 42. Spring; 5. Drive block; 51. Slide groove; 6. Electric push rod; 7. Cutter; 8. Adjusting screw; 9. Guide rod. Detailed Implementation
[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0025] Example: Reference Figures 1-3The resin anchoring agent follow-up packaging cutting device shown includes a frame 1 with two vertical plates, a plurality of rotatably mounted guide wheels 2 arranged horizontally on the frame 1, a cutting plate 11 fixed to the inner side of the frame 1 is installed at intervals in the middle of the plurality of guide wheels 2, and a drive mechanism is also installed on the frame 1 to drive the plurality of guide wheels 2 to rotate synchronously in the same direction.
[0026] The upper ends of the two vertical plates of the frame 1 are fixed with fixed plates 3. A movable block 4 is slidably connected between the two fixed plates 3. The sliding direction of the movable block 4 is inclined downward. The lower end of the movable block 4 is connected to a cutter 7 through a connector. After the cutter 7 moves with the movable block 4, the blade part abuts against the upper surface of the cutting plate 11.
[0027] One of the fixed plates 3 has a drive assembly installed on its outer side to drive the movable block 4 to slide.
[0028] Based on the above structure, during use, the drive component drives the movable block 4 to slide downwards at an angle, making the horizontal movement speed of the movable block 4 equal to the movement speed of the resin anchor. This allows the movable block 4 to drive the cutter 7 to move synchronously with the part of the resin anchor to be cut, while simultaneously causing the cutter 7 to move downwards. Finally, the blade of the cutter 7 abuts against the cutting plate 11 and cuts the resin anchor. After cutting, the drive component reverses its work to reset the movable block 4 and the cutter 7, thus completing the cutting operation of the resin anchor. Compared with the fixed cutting device in the prior art, the following cutting device can cut the resin anchor during the movement of the finished product without stopping the conveying, saving a lot of time and significantly improving production efficiency.
[0029] Furthermore, guide slides 31 are provided on both fixed plates 3. The overall extension direction of the guide slides 31 is inclined downward. Slide rods 41 are fixed at both ends of the movable block 4. The slide rods 41 move through the guide slides 31, and limit blocks 411 are fixed on the outside of the two fixed plates 3.
[0030] Furthermore, the guide slide 31 includes a horizontal section, an inclined section, and an inclined pressure section;
[0031] The horizontal section is located at the end of the fixed plate 3 away from the cutting plate 11, and the horizontal section is set parallel to the movement direction of the resin anchoring agent product. The inclined section is connected to the end of the horizontal section near the cutting plate 11 and extends downward at an inclination. The upper end of the inclined pressing section is connected to the end of the inclined section away from the horizontal section. The inclination angle of the inclined pressing section is greater than the inclination angle of the inclined section, and the inclination angle of the inclined pressing section is less than 85°.
[0032] By setting up a guide slide 31 and configuring it into a three-section structure (horizontal section, inclined section, and oblique pressure section), the guide slide 41 can have three different stages of movement while sliding. In the horizontal section, it slides horizontally and moves at the same speed as the resin anchoring agent. In the inclined section, it accelerates the inclined movement. In the oblique pressure section, it rises and falls rapidly to complete the rapid cutting operation and achieve a good cutting effect.
[0033] Furthermore, the upper end of the cutting plate 11 is provided with a cutting groove 111. When the slide rod 41 moves to the lower end of the inclined pressing section of the guide slide 31, the blade of the cutter 7 is pressed into the cutting groove 111, thereby completely cutting off the finished resin anchoring agent.
[0034] Furthermore, the connecting parts include an adjusting screw 8 and a guide rod 9. Both the adjusting screw 8 and the guide rod 9 are vertically arranged. The adjusting screw 8 is threaded through the movable block 4 and its lower end is rotatably connected to the upper end of the cutter 7. The guide rod 9 slides through the movable block 4 and its lower end is fixed to the upper end of the cutter 7.
[0035] A spring 42 is fixed to the lower end of the movable block 4, and the lower end of the spring 42 is fixed to the upper end of the cutter 7.
[0036] The operator can rotate the adjusting screw 8 to raise and lower the cutter 7, thereby adjusting the vertical distance between the lower end of the cutter 7 and the cutting plate 11. When the blade of the cutter 7 becomes worn, the operator can grind the blade and then rotate the adjusting screw 8 to lower the cutter 7, so that the blade of the cutter 7 can maintain a uniform horizontal height, thus allowing the cutter 7 to be used continuously and avoiding the need for frequent replacement. The guide rod 9 can ensure the stable raising and lowering of the cutter 7, and the spring 42 can apply tension to the cutter 7, thereby ensuring that the cutter 7 is fixed in the position before and after adjustment and improving the stability of the cutter 7.
[0037] Furthermore, the drive assembly includes a drive block 5 and an electric push rod 6. The electric push rod 6 is fixed to the outside of the fixed plate 3. The piston rod of the electric push rod 6 extends horizontally and its end is fixed to the drive block 5. The drive block 5 has a vertically extending slide groove 51. One end of a slide rod 41 is movably inserted into the slide groove 51, and the limiting block 411 is slidably embedded in the slide groove 51.
[0038] The vertical length of the slide groove 51 is consistent with the vertical span of the guide slide 31, so that the slide rod 41 can slide along the slide groove 51 while sliding along the guide slide 31, thus ensuring the driving effect of the slide rod 41.
[0039] It should be noted that in this application, the horizontal movement speed of the piston rod of the electric push rod 6 driving the movable block 4 should be the same as the movement speed of the resin anchoring agent; specifically, the movement speed of the slide rod 41 in the horizontal section of the guide slide 31 should be the same as the horizontal movement speed of the finished resin anchoring agent.
[0040] The speed of movement within the inclined section of the guide slide 31 is greater than the horizontal speed of the resin anchoring agent product, and the speed of movement across the horizontal span within the inclined section is the same as the horizontal speed of the resin anchoring agent product.
[0041] The speed of movement within the inclined section of the guide slide 31 is greater than the speed of movement within the inclined section of the guide slide 31, and the speed of movement across the horizontal span within the inclined section is also the same as the horizontal speed of the resin anchoring agent product.
[0042] In addition, the horizontal movement speed of the movable block 4 during reset is greater than the horizontal movement speed of the resin anchoring agent product, thereby achieving rapid reset and entering the next follow-up cutting operation.
[0043] It should be further explained that, in other embodiments, a sensor (not shown in the figure, but an existing displacement sensor can be used) can be installed on the side plate of the frame 1 to read the movement speed of the resin anchoring agent product in real time and transmit the data to the controller (not shown in the figure, but a programmable logic controller (PLC) commonly used in the prior art and applicable to this embodiment can be used). The controller controls the working speed of the electric push rod 6 by the movement speed of the resin anchoring agent product, thereby realizing the automated follow-up cutting operation of the cutter 7, which is more in line with the needs of automated production.
[0044] The working principle of this utility model is as follows: During daily use, after the electric push rod 6 is started, the piston rod of the electric push rod 6 pushes the drive block 5 to slide horizontally, thereby causing the slide rod 41 to move accordingly. When the slide rod 41 moves, it slides vertically along the slide groove 51 and slides at different speeds along the horizontal section, inclined section and oblique pressure section of the guide slide 31. This ensures that the movable block 4 maintains the same horizontal movement speed as the finished resin anchoring agent during the movement. At the same time, the movable block 4 can drive the cutter 7 to slide. When the guide slide rod 41 slides to the lower end of the oblique pressure section of the guide slide 31, the blade of the cutter 7 presses into the cutting groove 111, thereby completely cutting off the finished resin anchoring agent. After cutting, the electric push rod 6 reverses its work to reset the movable block 4 and the cutter 7, thus completing the cutting operation of the resin anchoring agent. Compared with the fixed cutting device in the prior art, the following cutting device can cut the resin anchoring agent during the movement of the finished resin anchoring agent without stopping the conveying, saving a lot of time and significantly improving production efficiency.
[0045] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A resin anchoring agent follow-up packaging cutting device, comprising a frame (1) with two vertical plates, wherein a plurality of rotatably mounted guide wheels (2) are horizontally arranged on the frame (1), and cutting plates (11) fixed to the inner side of the frame (1) are installed at intervals in the middle of the plurality of guide wheels (2), and a driving mechanism is also installed on the frame (1) to drive the plurality of guide wheels (2) to rotate synchronously and in the same direction, characterized in that: The upper ends of the two vertical plates of the frame (1) are fixed with fixed plates (3), and a movable block (4) is slidably connected between the two fixed plates (3). The sliding direction of the movable block (4) is generally inclined downward. The lower end of the movable block (4) is connected to a cutter (7) through a connector. After the cutter (7) moves with the movable block (4), the blade part abuts against the upper surface of the cutting plate (11). One of the fixed plates (3) has a drive assembly installed on its outer side to drive the movable block (4) to slide.
2. The resin anchoring agent follow-up packaging cutting device according to claim 1, characterized in that: Guide slides (31) are provided on both fixed plates (3). The overall extension direction of the guide slides (31) is inclined downward. Slide rods (41) are fixed at both ends of the movable block (4). The slide rods (41) move through the guide slides (31), and the slide rods (41) are fixed with limit blocks (411) on the outside of the two fixed plates (3).
3. The resin anchoring agent follow-up packaging cutting device according to claim 2, characterized in that: The guide slide (31) includes a horizontal section, an inclined section and an inclined pressure section; The horizontal section is located at the end of the fixed plate (3) away from the cutting plate (11), and the horizontal section is set parallel to the movement direction of the resin anchoring agent product. The inclined section is connected to the end of the horizontal section near the cutting plate (11) and extends downward at an inclination. The upper end of the inclined pressure section is connected to the end of the inclined section away from the horizontal section. The inclination angle of the inclined pressure section is greater than the inclination angle of the inclined section, and the inclination angle of the inclined pressure section is less than 85°.
4. The resin anchoring agent follow-up packaging cutting device according to claim 3, characterized in that: The upper end of the cutting plate (11) is provided with a cutting groove (111). When the slide rod (41) moves to the lower end of the inclined pressing section of the guide slide (31), the cutting edge of the cutter (7) is pressed into the cutting groove (111).
5. The resin anchoring agent follow-up packaging and cutting device according to claim 1, characterized in that: The connector includes an adjusting screw (8) and a guide rod (9). Both the adjusting screw (8) and the guide rod (9) are vertically arranged. The adjusting screw (8) is threaded through the movable block (4) and its lower end is rotatably connected to the upper end of the cutter (7). The guide rod (9) slides through the movable block (4) and its lower end is fixed to the upper end of the cutter (7).
6. The resin anchoring agent follow-up packaging cutting device according to claim 5, characterized in that: A spring (42) is fixed to the lower end of the movable block (4), and the lower end of the spring (42) is fixed to the upper end of the cutter (7).
7. The resin anchoring agent follow-up packaging cutting device according to claim 2, characterized in that: The drive assembly includes a drive block (5) and an electric push rod (6). The electric push rod (6) is fixed to the outside of the fixed plate (3). The piston rod of the electric push rod (6) extends horizontally and its end is fixed to the drive block (5). The drive block (5) has a vertically extending slide groove (51). One end of the slide rod (41) is movably inserted into the slide groove (51), and the limiting block (411) is slidably embedded in the slide groove (51). The vertical length of the chute (51) is consistent with the vertical span of the guide chute (31).