A rotary cut residual core baling device
By setting a movable pressure plate and bolt fixing structure in the rotary cutting residual wood core packaging device, the problem of displacement or tipping of irregular wood cores due to centrifugal force is solved, and the wood cores are firmly fixed, ensuring the smooth progress of the packaging process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGXI HUAMAI WOOD IND CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-07
AI Technical Summary
During the packaging of the remaining wood cores after rotary cutting, irregularly shaped wood cores may shift or tip over due to centrifugal force, making it difficult to carry out the packaging process normally.
A device for packing leftover wood cores from rotary cutting was designed. A movable pressure plate is set on the top of the turntable. The pressure plate abuts against the top of the wood core and is fixed with bolts and rubber strips to prevent the wood core from shifting or tipping over.
This effectively prevents the wood core from shifting or tipping over on the turntable due to centrifugal force, ensuring the normal progress of the packaging process.
Smart Images

Figure CN224466312U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of packaging device technology, and in particular to a packaging device for rotary-cut residual wood cores. Background Technology
[0002] A rotary-cut residual wood core baling device is a piece of equipment used to collect, sort, and pack the residual wood cores after rotary cutting. The application of this type of device can effectively solve the problem of handling residual wood cores, reduce the environmental impact of random stacking of wood cores, and improve the utilization rate of wood resources.
[0003] When using a rotary packer to pack leftover wood cores from rotary cutting, the wood cores need to be placed on a turntable. The rotation of the turntable drives the film on the film winding roller to wrap around the wood cores. However, during the rotation of the turntable, the wood cores are subjected to centrifugal force, and some irregularly shaped wood cores may shift or tip over on the turntable, which will make it difficult for the packing process to proceed normally. Utility Model Content
[0004] This utility model proposes a rotary cutting residual wood core packaging device to solve the problem that during the rotation of the turntable, the wood core is subjected to centrifugal force, and some irregularly shaped wood cores may shift and tilt on the turntable, which will make it difficult to carry out the packaging process normally.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a rotary-cut residual wood core packaging device, comprising a base plate, a turntable rotatably mounted on the top of the base plate, a side plate welded to one side of the turntable, a movable block slidably mounted on the inner wall of the side plate, a film-winding roller rotatably mounted on one side of the movable block, and an auxiliary device provided on the top of the turntable. The auxiliary device fixes the wood core by setting a pressure plate that can move vertically on the top of the turntable and abutting against the top of the wood core.
[0006] The effect achieved by the above components is as follows: by setting up a pressure plate and adjusting the pressure plate so that the pressure plate moves vertically until the bottom of the pressure plate abuts against the top of the wood core, the pressure plate can fix the top of the wood core and the turntable, which helps to prevent some of the wood core from shifting and tipping on the turntable due to centrifugal force, thus facilitating the normal progress of the packaging process.
[0007] Preferably, the auxiliary device includes an L-shaped plate, one end of which is fixedly mounted on the outer surface of the base plate. A sliding plate is slidably mounted on the inner wall of one side of the L-shaped plate. A ring is fixedly mounted on one end of the sliding plate. A pressure plate is rotatably mounted on the inner wall of the ring. The pressure plate is positioned directly above the turntable. Screw holes are symmetrically mounted on both sides of one end of the sliding plate. The two screw holes are respectively fitted to the two sides of the two sliding plates. Bolts are threaded into the inner wall of the screw holes.
[0008] The effect achieved by the above components is as follows: After the wood core is placed on the turntable, the pressure plate is pushed down. The pressure plate will drive the sliding plate connected to the ring to move on one side of the L-shaped plate until the bottom of the pressure plate abuts against the top of the wood core. Then, the bolt is rotated so that one end of the bolt passes through the inner wall of the bolt hole block until one end of the bolt abuts against one side of the L-shaped plate. The two bolts can fix the sliding plate and the L-shaped plate, thereby fixing the pressure plate. When the turntable drives the wood core to rotate, it will drive the pressure plate to rotate synchronously on the inner wall of the ring. At the same time, the pressure plate can fix the wood core and the turntable, which helps to prevent the wood core from shifting or tipping over when the turntable drives the wood core to rotate.
[0009] Preferably, rubber strips are bonded to the inner walls of both sides of the L-shaped plate, and the bolts are located on one side of the rubber strips.
[0010] The effect achieved by the above components is that by setting the rubber strip, one side of the L-shaped plate can be replaced to abut against one end of the bolt, and the friction between the bolt and the L-shaped plate can be increased, making the bolt more securely fixed to the sliding plate.
[0011] Preferably, a spring is installed on one side of the top of the sliding plate, and one end of the spring is fixedly installed on one side of the top of the L-shaped plate.
[0012] The effect achieved by the above components is as follows: by setting a spring, when the sliding plate is pushed down, the sliding plate will stretch the spring, causing the spring to deform. At the same time, when the force applied to the spring is removed, the spring will reset and drive the pressure plate connected to the sliding plate to automatically move away from the turntable, thereby facilitating the loading and unloading of the wood core.
[0013] Preferably, the spring has a round rod inside, with its two ends fixedly installed on one side of the top and bottom of the L-shaped plate, respectively, and the sliding plate is slidably installed on the outer surface of the round rod.
[0014] The effect achieved by the above components is that by setting the round rod, the round rod can limit and guide the spring, which helps to prevent the spring from easily bending during deformation.
[0015] Preferably, the inner wall of the pressure plate is uniformly threaded with a number of threaded pins.
[0016] The effect achieved by the above-mentioned components is as follows: by setting several threaded pins, the bottom of the pressure plate can be used to abut against the top of the wood core. The top of some irregularly shaped wood cores is not flat, and the contact area between the pressure plate and the top of the wood core is relatively limited, making it difficult to achieve a good fixing effect. However, the several threaded pins are independent of each other, and the several threaded pins can be rotated and adjusted one by one, so that the threaded pins can extend and retract on the inner wall of the pressure plate until the top of the several threaded pins abut against the top of the wood core, thus making the fixing of the wood core by the pressure plate more stable.
[0017] Preferably, a handwheel is fixedly mounted on the top end of the threaded pin, and the outer surface of the handwheel is provided with a protrusion.
[0018] The effect achieved by the above components is as follows: by setting a handwheel, turning the handwheel can drive the threaded pin to rotate. At the same time, the outer surface of the handwheel is provided with protrusions, which can effectively increase the friction of the outer surface of the handwheel and have an anti-slip effect when turning the handwheel.
[0019] Preferably, a rubber block is fixedly installed at the bottom end of the threaded pin, and the bottom of the rubber block is uniformly provided with grooves.
[0020] The effect achieved by the above-mentioned components is that by setting a rubber block with a groove, the contact area and friction between one end of the threaded pin and the top of the wood core can be increased, further improving the stability of the pressure plate in fixing the wood core.
[0021] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0022] In this invention, by setting a pressure plate and adjusting it, the pressure plate can be moved vertically until its bottom abuts against the top of the wood core. This allows the pressure plate to fix the top of the wood core to the turntable, which helps prevent some of the wood core from shifting or tipping over on the turntable due to centrifugal force, thus facilitating the normal progress of the packaging process. Attached Figure Description
[0023] Figure 1 This is a three-dimensional structural diagram of the main body of this utility model;
[0024] Figure 2 This is a three-dimensional structural diagram of the auxiliary device of this utility model;
[0025] Figure 3 This is a three-dimensional structural diagram of the L-shaped plate of this utility model;
[0026] Figure 4 This utility model Figure 3 A magnified structural diagram at point A;
[0027] Figure 5 This is a three-dimensional structural diagram of the pressure plate of this utility model;
[0028] Figure 6 This is a three-dimensional structural diagram of the rubber block of this utility model.
[0029] Legend: 1. Base plate; 2. Turntable; 3. Side plate; 4. Moving block; 5. Film roll roller; 6. Auxiliary device; 61. L-shaped plate; 62. Sliding plate; 63. Ring; 64. Pressure plate; 65. Screw hole block; 66. Bolt; 67. Rubber strip; 68. Spring; 69. Round rod; 610. Threaded pin; 611. Handwheel; 612. Rubber block. Detailed Implementation
[0030] Example 1, referring to Figures 1-3 As shown, this embodiment discloses a device for packaging rotary-cut residual wood cores, including a base plate 1, a turntable 2 rotatably mounted on the top of the base plate 1, a side plate 3 welded to one side of the turntable 2, and a movable block 4 slidably mounted on the inner wall of the side plate 3 (the side plate 3 has two different driving components: one for driving the turntable 2 to rotate, which can be a motor installed inside the side plate, connected to the bottom of the turntable 2 via a reducer, belt, etc., thereby driving the turntable 2 to rotate; the other for driving the movable block 4 to move vertically on one side of the side plate 3, which can be an electric telescopic rod installed inside the side plate). A film-winding roller 5 is rotatably mounted on one side of the movable block 4, and an auxiliary device 6 is provided on the top of the turntable 2. The auxiliary device 6 has a pressure plate 64 that can move vertically on the top of the turntable 2. The top of the wood core is abutted against to fix the wood core. By setting up a pressure plate 64, the pressure plate 64 is adjusted so that it moves vertically until the bottom of the pressure plate 64 abuts against the top of the wood core. The pressure plate 64 can fix the top of the wood core and the turntable 2, which helps to prevent the wood core from shifting and tipping on the turntable 2 due to centrifugal force, thus facilitating the normal progress of the packaging process. After the wood core is fixed on the turntable, one end of the film roll on the film roll roller 5 is wound around the wood core. The motor is started to drive the turntable 2 to rotate. As the turntable 2 drives the wood core to rotate, it will continuously wrap the film around the outer surface of the wood core. At the same time, when the wood core is high, the electric telescopic rod is activated to drive the moving block 4 and the film roll roller to move upward, thus enabling the entire wood core to be packaged.
[0031] Reference Figures 2-4As shown, the auxiliary device 6 includes an L-shaped plate 61. One end of the L-shaped plate 61 is fixedly installed on the outer surface of the base plate 1. A sliding plate 62 is slidably installed on the inner wall of one side of the L-shaped plate 61. A ring 63 is fixedly installed on one end of the sliding plate 62. A pressure plate 64 is rotatably installed on the inner wall of the ring 63. The pressure plate 64 is positioned directly above the turntable 2. Screw holes 65 are symmetrically installed on both sides of one end of the sliding plate 62. The two screw holes 65 are respectively fitted to the two sides of the two sliding plates 62. Bolts 66 are threaded into the inner wall of the screw holes 65. After the wooden core is placed on the turntable 2, the pressure plate 64 is pushed down. The pressure plate 64 will drive the sliding plate 62 connected to the ring 63 to move on one side of the L-shaped plate 61 until the bottom of the pressure plate 64 abuts against the top of the wooden core. Then the bolts 66 are rotated so that one end of the bolts 66 passes through the screw holes. The inner wall of 65 extends until one end of bolt 66 abuts against one side of L-shaped plate 61. The two bolts 66 then fix the sliding plate 62 and L-shaped plate 61, thereby fixing the pressure plate 64. When the turntable 2 rotates the wooden core, it causes the pressure plate 64 to rotate synchronously on the inner wall of the ring 63. Simultaneously, the pressure plate 64 fixes the wooden core and turntable 2, preventing displacement or tipping of the wooden core when the turntable 2 rotates. Rubber strips 67 are adhered to the inner walls of both sides of L-shaped plate 61. Bolts 66 are positioned on one side of the rubber strips 67. By using rubber strips 67, one side of L-shaped plate 61 abuts against one end of bolt 66, increasing the friction between bolt 66 and L-shaped plate 61, making the fixing of the sliding plate 62 by bolt 66 more secure.
[0032] Reference Figure 3 As shown, a spring 68 is installed on one side of the top of the sliding plate 62. One end of the spring 68 is fixedly installed on one side of the top of the L-shaped plate 61. By setting the spring 68, when the sliding plate 62 is pushed down, the sliding plate 62 will stretch the spring 68, causing the spring 68 to deform. At the same time, when the force applied to the spring 68 is removed, the spring 68 will return to its original position and drive the pressure plate 64 connected to the sliding plate 62 to automatically move away from the turntable 2, thereby facilitating the loading and unloading of the wood core. A round rod 69 is set inside the spring 68. The two ends of the round rod 69 are fixedly installed on one side of the top and bottom of the L-shaped plate 61, respectively. The sliding plate 62 is slidably installed on the outer surface of the round rod 69. By setting the round rod 69, the round rod 69 can limit and guide the spring 68, which helps to prevent the spring 68 from easily bending during the deformation process.
[0033] Reference Figure 5 and Figure 6As shown, the inner wall of the pressure plate 64 is uniformly threaded with several threaded pins 610. By setting several threaded pins 610, the bottom of the pressure plate 64 can be used to abut against the top of the wood core. The top of some irregularly shaped wood cores is not flat, and the contact area between the pressure plate 64 and the top of the wood core is relatively limited, making it difficult to achieve a good fixing effect. However, the several threaded pins 610 are independent of each other, and the several threaded pins 610 can be rotated and adjusted one by one, so that the threaded pins 610 can extend and retract on the inner wall of the pressure plate 64 until the top of the several threaded pins 610 abut against the top of the wood core, thus making the fixing of the wood core by the pressure plate 64 more stable.
[0034] Reference Figure 5 and Figure 6 As shown, a handwheel 611 is fixedly installed at the top of the threaded pin 610. The outer surface of the handwheel 611 has protrusions. By setting the handwheel 611, rotating the handwheel 611 can drive the threaded pin 610 to rotate. At the same time, the protrusions on the outer surface of the handwheel 611 can effectively increase the friction of the outer surface of the handwheel 611, which has an anti-slip effect when rotating the handwheel 611. A rubber block 612 is fixedly installed at the bottom of the threaded pin 610. The bottom of the rubber block 612 has grooves evenly provided. By setting the rubber block 612 with grooves, the contact area and friction between one end of the threaded pin 610 and the top of the wood core can be increased, further improving the stability of the pressure plate 64 in fixing the wood core.
[0035] Working principle: After placing the wooden core on turntable 2, push down the pressure plate 64. The pressure plate 64 will compress the spring 68, causing the spring 68 to deform. At the same time, the pressure plate 64 will drive the sliding plate 62 connected to the ring 63 to move on one side of the L-shaped plate 61 until at least one rubber block 612 at the bottom of the pressure plate 64 abuts against the top of the wooden core. Then rotate the bolt 66 so that one end of the bolt 66 passes through the inner wall of the screw hole block 65 until one end of the bolt 66 abuts against the rubber strip 67 on one side of the L-shaped plate 61. The two bolts 66 can then fix the sliding plate 62 and the L-shaped plate 61, thereby fixing the pressure plate 64. Finally, rotate several handwheels 611. Handwheel 611 drives threaded pin 610 to move towards the top of the wood core until the bottoms of several rubber blocks 612 are in contact with the top of the wood core. At this time, when turntable 2 drives the wood core to rotate, it will drive pressure plate 64 to rotate synchronously on the inner wall of ring 63. At the same time, pressure plate 64 can fix the wood core and turntable 2, which helps to prevent the wood core from shifting or tipping over when turntable 2 drives the wood core to rotate. Reverse rotation of bolt 66, so that bolt 66 moves away from L-shaped plate 61, can release L-shaped plate 61 from fixing sliding plate 62. Spring 68 will reset and drive pressure plate 64 connected to sliding plate 62 to automatically move away from turntable 2, thus facilitating the loading and unloading of wood core.
Claims
1. A device for packaging rotary-cut residual wood cores, comprising a base plate (1), characterized in that: A turntable (2) is rotatably mounted on the top of the base plate (1). A side plate (3) is welded to one side of the turntable (2). A moving block (4) is slidably mounted on the inner wall of the side plate (3). A film rolling roller (5) is rotatably mounted on one side of the moving block (4). An auxiliary device (6) is provided on the top of the turntable (2). The auxiliary device (6) fixes the wood core by setting a pressure plate (64) that can move in the vertical direction on the top of the turntable (2) and abutting against the top of the wood core.
2. The device for packing residual wood cores after rotary cutting according to claim 1, characterized in that: The auxiliary device (6) includes an L-shaped plate (61), one end of which is fixedly installed on the outer surface of the base plate (1). A sliding plate (62) is slidably installed on the inner wall of one side of the L-shaped plate (61). A ring (63) is fixedly installed on one end of the sliding plate (62). A pressure plate (64) is rotatably installed on the inner wall of the ring (63). The pressure plate (64) is positioned directly above the turntable (2). Screw holes (65) are symmetrically installed on both sides of one end of the sliding plate (62). The two screw holes (65) are respectively attached to the two sides of the two sliding plates (62). Bolts (66) are threaded into the inner wall of the screw holes (65).
3. A device for packaging rotary-cut residual wood cores according to claim 2, characterized in that: Rubber strips (67) are glued to the inner walls on both sides of the L-shaped plate (61), and the bolts (66) are set on one side of the rubber strips (67).
4. A device for packaging rotary-cut residual wood cores according to claim 2, characterized in that: A spring (68) is installed on one side of the top of the sliding plate (62), and one end of the spring (68) is fixedly installed on one side of the top of the L-shaped plate (61).
5. A device for packaging rotary-cut residual wood cores according to claim 4, characterized in that: The spring (68) has a round rod (69) inside. The two ends of the round rod (69) are fixedly installed on one side of the top and bottom of the L-shaped plate (61), respectively. The sliding plate (62) is slidably installed on the outer surface of the round rod (69).
6. A device for packaging rotary-cut residual wood cores according to claim 2, characterized in that: The inner wall of the pressure plate (64) is uniformly threaded with several threaded pins (610).
7. A device for packaging rotary-cut residual wood cores according to claim 6, characterized in that: A handwheel (611) is fixedly installed on the top of the threaded pin (610), and the outer surface of the handwheel (611) is provided with protrusions.
8. A device for packing residual wood cores after rotary cutting according to claim 6, characterized in that: A rubber block (612) is fixedly installed at the bottom end of the threaded pin (610), and the bottom of the rubber block (612) is uniformly provided with grooves.