A bagging mechanism and disposable glove folding and packaging machine
By coordinating the pushing unit and the swinging unit of the bagging mechanism, the product can be smoothly inserted while reducing the opening size of the packaging bag. This solves the problems of high material cost and large packaging size in the existing technology, and achieves the effect of reducing cost and shrinking packaging size.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JICAIXING (XIAMEN) INTELLIGENT TECH CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-14
AI Technical Summary
In existing mechanical packaging equipment, in order to avoid errors in inserting products into the packaging bag, the opening of the packaging bag is usually designed to be large, which leads to increased material costs and larger packaging size.
The bagging mechanism uses a combination of a pushing unit and a swinging unit to switch the insertion rod or bagging platform between a straight-ahead position and an oblique position. First, the product is inserted into the packaging bag by oblique pushing, and then the bag is straightened to complete the bagging, thereby reducing the opening size of the packaging bag.
By reducing the opening size of the packaging bag, the product can be easily inserted into the bag, reducing material costs and shrinking the packaging size.
Smart Images

Figure CN224491656U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mechanized equipment, specifically to a bagging mechanism and a disposable glove folding packaging machine. Background Technology
[0002] With the development of science and technology, the production and processing of products using mechanized equipment has become widespread. Bag packaging is a common method, such as the folding packaging of disposable gloves, which involves folding the gloves and placing them into a bag. However, in current mechanized packaging production, to ensure smooth insertion of the product into the bag, the opening size of the bag is usually designed to be larger than the product size. This is to avoid misalignment or shaking during insertion that could prevent the product from being inserted. This existing method significantly increases material costs and results in an overall larger packaged size. Utility Model Content
[0003] To address the aforementioned problems, this invention provides a bagging mechanism and a disposable glove folding packaging machine that can successfully complete bagging even with a reduced bag opening size.
[0004] To achieve the above objectives, the technical solution provided by this utility model is as follows:
[0005] A bagging mechanism includes a pushing unit, a bagging platform, and a swinging unit. The bagging platform has an insertion channel for placing a packaging bag. The pushing unit has a rod that can be driven to move between the insertion channel and the bagging platform. The rod and the insertion channel are on a first plane. The swinging unit cooperates with the pushing unit or the bagging platform to drive the rod of the pushing unit or the bagging platform to swing on the first plane, so that the rod of the pushing unit or the bagging platform switches between a facing position and an oblique position. In the facing position, the rod of the pushing unit is directly opposite the insertion channel of the bagging platform; in the oblique position, the rod of the pushing unit is inclined to the insertion channel of the bagging platform.
[0006] Furthermore, the swing unit cooperates with the bagging platform, and the bagging platform is mounted on the swing unit.
[0007] Furthermore, the swing unit includes a mounting plate, a linear drive assembly, and a first elastic reset member. The bagging platform is rotatably mounted on the mounting plate and has a first abutting end. The linear drive assembly moves along a straight line and abuts against the first abutting end of the bagging platform, driving the bagging platform to switch from an oblique position to a facing position. The first elastic reset member acts on the bagging platform to drive the bagging platform back to the oblique position when the bagging platform loses the force of the linear drive assembly.
[0008] Furthermore, the linear drive assembly includes a linear driver and a slider assembly. The slider assembly is slidably mounted on a linear slide rail. The linear driver drives the slider assembly to reciprocate on the linear slide rail. The slider assembly slides in one direction and abuts against the first abutting end of the bagging platform, causing the bagging platform to switch from an oblique position to a straight position.
[0009] Furthermore, the mounting plate can also be slidably mounted on a base, the sliding direction of the mounting plate being perpendicular to the pushing direction of the pushing unit. The mounting plate is also provided with a second abutting end, which is contacted by the linear drive component before the first abutting end of the bagging platform, so that the mounting plate performs a translational switching before the bagging platform swings and switches. A second elastic reset member is also provided between the mounting plate and the base, which drives the mounting plate to return when both the bagging platform and the mounting plate lose the force of the linear drive component.
[0010] Furthermore, the first abutting end of the bagging platform is a first pulley fixed on the bagging platform, and the second abutting end of the mounting plate is a second pulley fixed on the mounting plate; the linear drive assembly has a drive plate, and the drive plate is provided with a first abutting surface corresponding to the first pulley and a second abutting surface corresponding to the second pulley.
[0011] Furthermore, a support plate is fixed on the mounting plate, and a plurality of support rollers protruding from the upper surface of the support plate are mounted on the support plate, with the bottom surface of the bagging platform abutting against the support rollers.
[0012] Furthermore, the insertion channel of the bagging platform is an insertion slot formed on the upper surface of the bagging platform.
[0013] Furthermore, the swing unit is a rotary motor with a rotating platform, and the bagging platform is directly fixed to the rotating platform of the rotary motor.
[0014] Furthermore, the propulsion unit includes a propulsion driver, a sliding frame, and a rod. The propulsion driver drives the sliding frame. The swing unit is a rotary motor, which is fixed on the sliding frame. The rotating platform of the rotary motor is connected to the rod to drive the rod to switch between a facing position and an oblique position.
[0015] A disposable glove folding and packaging machine includes a folding mechanism and a bagging mechanism, wherein the bagging mechanism is the bagging mechanism described above, and the propulsion unit is disposed at the end of the folding mechanism.
[0016] The technical solution provided by this utility model has the following beneficial effects:
[0017] A swing unit is added, which cooperates with the pushing unit or the bagging platform to drive the insertion rod of the pushing unit or the bagging platform to swing in a first plane, so that the insertion rod of the pushing unit or the bagging platform switches between a straight-ahead position and an oblique-ahead position. In specific application, the swing unit first drives the insertion rod of the pushing unit or the bagging platform to the oblique-ahead position. At this time, when the insertion rod of the pushing unit pushes the product, one end of the product is inserted into the bag opening on the insertion channel first, that is, one tip of the product is inserted into the bag opening, which ensures smooth insertion. Then, the swing unit drives the insertion rod of the pushing unit or the bagging platform to the straight-ahead position, so that the product and the bag are aligned. At this time, the front end of the product is already inside the bag. The pushing unit then pushes the product completely into the bag, thus successfully completing the bagging operation. The swing unit enables the product to be smoothly inserted into the bag opening first by oblique push, and then aligned and fully pushed in; bagging can still be successfully completed even when the opening size of the bag is reduced. Attached Figure Description
[0018] Figure 1 The figure shown is a three-dimensional structural diagram of the bagging mechanism in Embodiment 1;
[0019] Figure 2 The diagram shown is a three-dimensional schematic of the cooperation structure between the bagging platform and the swing unit in Embodiment 1; it is currently in an oblique position.
[0020] Figure 3 As shown Figure 2 An exploded view of the structure shown;
[0021] Figure 4 The diagram shows the cooperative structure of the bag carrier and the swing unit in the diagonally opposite position in Embodiment 1.
[0022] Figure 5 The following is from Figure 4 A schematic diagram of the structure after the state has been translated along the second direction;
[0023] Figure 6 The following is from Figure 5 A schematic diagram of the structure when the state swings and switches to the facing position. Detailed Implementation
[0024] To further illustrate the various embodiments, the present invention provides accompanying drawings. These drawings are part of the disclosure of the present invention and are mainly used to illustrate the embodiments, and can be used in conjunction with the relevant descriptions in the specification to explain the operating principles of the embodiments. With reference to these drawings, those skilled in the art should be able to understand other possible implementations and the advantages of the present invention. Components in the drawings are not drawn to scale, and similar component symbols are generally used to represent similar components.
[0025] In the description of this utility model, terms such as "upper", "lower", "left", "right", "front", and "rear" are based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of description and simplification of operation, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0026] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments.
[0027] Example 1
[0028] Reference Figures 1 to 6 As shown, this embodiment provides a bagging mechanism including a pushing unit 10, a bagging platform 20, and a swinging unit 30. The bagging platform 20 has an insertion channel 21 for placing a packaging bag 1. In this embodiment, the insertion channel 21 is an insertion groove formed on the upper surface of the bagging platform 20. During the bagging operation, the packaging bag 1 is fixed in the insertion channel 21 of the bagging platform 20, and the opening of the packaging bag 1 faces the pushing unit 10. The bagging platform 20 is preferably made of metal, which has good hardness, is not easily deformed, and is wear-resistant.
[0029] The propulsion unit 10 has an insertion rod 11 and is capable of moving the insertion rod 11 between the insertion channel 21 near or away from the bagging platform 20; specifically, the direction in which the propulsion unit 10 drives the insertion rod 11 to switch movement is defined as the first direction. The insertion rod 11 and the insertion channel 21 are located on a first plane (such as a horizontal plane); the first direction is one of the directions of the first plane. The propulsion unit 10 includes a propulsion driver 12, a sliding frame 13 and the insertion rod 11; the sliding frame 13 is slidably arranged along the first direction, the propulsion driver 12 drives and connects to the sliding frame 13, and the insertion rod 11 is fixed on the sliding frame 13 and extends along the first direction.
[0030] The swing unit 30 cooperates with the push unit 10 or the bagging platform 20. In this embodiment, the swing unit 30 cooperates with the bagging platform 20, meaning the bagging platform 20 is mounted on the swing unit 30. The swing unit 30 drives the bagging platform 20 to swing in the first plane, allowing the bagging platform 20 to switch between a facing position and an oblique position. In the facing position, the insertion rod 11 of the push unit 10 is directly opposite the insertion channel 21 of the bagging platform 20, meaning the insertion rod and the insertion channel are parallel and both extend along the first direction. Figure 6 As shown, at this time, the opening of the packaging bag 1 placed in the insertion channel 21 is directly opposite the insertion rod 11; when in an oblique position, the swing unit 30 drives the bagging platform 20 to rotate at a certain angle, and the insertion rod 11 of the pushing unit 10 is inclined to the insertion channel 21 of the bagging platform 20, as shown. Figure 4 As shown, at this time, the opening of the packaging bag 1 placed in the insertion channel 21 is angled towards the insertion rod 11.
[0031] This embodiment also provides a disposable glove folding and packaging machine, including a folding mechanism (not shown) and a bagging mechanism. The bagging mechanism is the bagging mechanism described above, that is, the bagging mechanism described above is specifically applied to the disposable glove folding and packaging machine; the pushing unit 10 is disposed at the end of the folding mechanism.
[0032] Based on the above scheme, when the bagging mechanism is applied to a disposable glove folding packaging machine, one preferred bagging operation step is as follows: In the initial state, the swing unit 30 drives the bagging platform 20 to switch to an oblique position, such as... Figure 4 As shown, at this time, the opening of the packaging bag 1 placed in the insertion channel 21 is diagonally opposite the insertion rod 11. During the processing operation, the folding mechanism folds the disposable glove, and the pushing unit 10 is located at the end of the folding mechanism. As the final fold, the pushing unit 10 drives the insertion rod 11 to move closer to the bagging platform 20. During this process, the insertion rod 11 presses against the middle of the folded glove output by the folding mechanism, performing a final fold. The product 2 (i.e., the folded glove) is inserted diagonally into the insertion channel along with the insertion rod 11, and finally inserted into the opening of the packaging bag 1 at one of its end angles a, as shown. Figure 4 As shown, in this case, the folded glove is inserted into the opening of the packaging bag 1 with its tip (angle a) first. The size of the tip (angle a) is much smaller than the size of the opening of the packaging bag 1, effectively ensuring that the product 2 can be smoothly inserted into the opening of the packaging bag 1 with a high success rate. Then, the oscillating unit 30 drives the bagging platform 20 to switch to the facing position, as shown... Figure 6 As shown, during the switching process, the front end of product 2 will be fully inserted into the opening of packaging bag 1; finally, the pushing unit 10 will further push product 2 completely into packaging bag 1, thereby successfully completing the bagging operation of product 2.
[0033] The swing unit 30 enables the product 2 to be smoothly inserted into the opening of the packaging bag 1 by first pushing it at an angle, and then straightening it before pushing it in completely. The packaging can still be completed smoothly even when the opening size of the packaging bag 1 is reduced, thereby reducing packaging costs and shrinking the packaging size.
[0034] Specifically, the swing unit 30 includes a mounting plate 31, a linear drive assembly 32, and a first elastic reset member 33. The bagging platform 20 is rotatably mounted on the mounting plate 31 and has a first abutment end 22. The linear drive assembly 32 moves along a straight line (specifically along the first direction in this embodiment) and abuts against the first abutment end 22 of the bagging platform 20, driving the bagging platform 20 from an oblique position to a facing position. The first elastic reset member 33 acts on the bagging platform 20 to drive the bagging platform 20 back to the oblique position when the bagging platform 20 loses the force of the linear drive assembly 32. Specifically, the first elastic reset member 33 is a tension spring, which, in its initial state, such as Figure 4 As shown, the linear drive assembly 32 does not contact the first abutment end 22 of the bagging platform 20, and the bagging platform 20 remains in the oblique position under the action of the first elastic reset member 33. When it is necessary to switch to the upright position, the linear drive assembly 32 moves along the first direction to abut against the first abutment end 22 of the bagging platform 20 and drives the bagging platform 20 to swing from the oblique position to the upright position. After the bagging operation is completed, the linear drive assembly 32 releases its contact with the first abutment end 22 of the bagging platform 20, and the bagging platform 20 switches back to the oblique position under the action of the first elastic reset member 33.
[0035] Furthermore, when the bagging platform 20 switches from an oblique position to a directly facing position, in order to better ensure that the front end of the product 2 can be fully inserted into the opening of the packaging bag 1, in this embodiment, before switching to the directly facing position, the positions of the product 2 and the packaging bag 1 are also corrected, that is, the packaging bag 1 is translated laterally (in a second direction perpendicular to the first direction) so that the product 2 rests against one side of the opening of the packaging bag 1, such as... Figure 5 As shown, then swing and switch to the facing position so that one side of product 2 is as close as possible to one side of packaging bag 1, so that the other side of packaging bag 1 has more reserved space to ensure that the corner of product 2 outside the bag opening can be smoothly inserted.
[0036] To achieve the above actions, in this embodiment, the mounting plate 31 is also slidably mounted on a base 34, and the sliding direction of the mounting plate 31 is perpendicular to the pushing direction of the pushing unit 10, that is, the mounting plate 31 can slide along the second direction; more specifically, the base 34 is provided with a linear guide rail 341 extending along the second direction, and the bottom of the mounting plate 31 is slidably mounted on the linear guide rail 341 through a first slider 312, thus achieving slidable mounting. The mounting plate 31 is also provided with a second abutment end 311, which is contacted by the linear drive component 32 before the first abutment end 22 of the bagging platform 20, so that the mounting plate 31 performs a translational switching before the bagging platform 20 swings and switches; that is, the linear drive component 32 first acts on the second abutment end 311 of the mounting plate 31, driving the mounting plate 31 and the bagging platform 20 to translate along the second direction first, that is, by Figure 4 The status shown has switched to Figure 5 As shown in the diagram; subsequently, the linear drive assembly 32 continues to move and acts on the first contact end 22 of the bagging platform 20, causing the bagging platform 20 to swing from an oblique position to a directly facing position, i.e., from... Figure 5 The status shown has switched to Figure 6 As shown in the diagram; a second elastic reset member 35 is also provided between the mounting plate 31 and the base 34. This second elastic reset member 35 is also a tension spring. When both the bagging platform 20 and the mounting plate 31 lose the force of the linear drive assembly 32, the second elastic reset member 35 drives the mounting plate 31 to return. The design of the above structure, using a single linear drive assembly 32, effectively realizes the sequential action of translation and then swing switching. The structure is simple, the action is reliable, and the design is ingenious.
[0037] Furthermore, the linear drive assembly 32 includes a linear driver 321 and a slider assembly. The slider assembly is slidably mounted on a linear slide rail 342. Specifically, the linear slide rail 342 extends along a first direction and is fixed to the outside of the base 34. The slider assembly includes a drive plate 322 and a second slider 325 fixed on the drive plate 322. The drive plate 322 is slidably mounted on the linear slide rail 342 via the second slider 325. The linear driver 321 is an electric telescopic rod or a cylinder. The drive shaft of the linear driver 321 is connected to the drive plate 322 to drive the drive plate 322 to slide in the first direction.
[0038] Specifically, the bagging platform 20 is mounted on a mounting flange 313 via a bearing-bearing rotating shaft 23, and the mounting flange 313 is fixed to the mounting plate 31. This allows for the rotatable assembly of the bagging platform 20.
[0039] Furthermore, the first abutment end 22 of the bagging platform 20 is a first pulley fixed on the bagging platform 20, and the second abutment end 311 of the mounting plate 31 is a second pulley fixed on the mounting plate 31. The drive plate 322 of the linear drive assembly 32 is provided with a first abutment surface 324 corresponding to the first pulley and a second abutment surface 323 corresponding to the second pulley. The front ends of the first abutment surface 324 and the second abutment surface 323 are both inclined guide surfaces. When the linear actuator 321 drives the drive plate 322 to slide, the front end of the second abutment surface 323 of the drive plate 322 first abuts against the second pulley. As it continues to move, it drives the mounting plate 31, the bagging platform 20, and the packaging bag 1 to translate along the second direction. Afterward, the front end of the first abutment surface 324 of the drive plate 322 abuts against the first pulley. As it continues to move, it drives the bagging platform 20 and the packaging bag 1 to swing and switch to the facing position. The use of pulleys reduces friction and makes the operation smoother.
[0040] Specifically, when the bagging platform 20 is switched to the facing position, the second contact surface 323 will always abut against the second pulley so that the bagging platform 20 remains in the position after translation in the second direction.
[0041] Furthermore, a support plate 36 is fixed on the mounting plate 31. The support plate 36 is equipped with a plurality of support rollers 361 protruding from the upper surface of the support plate 36. The bottom surface of the bagging platform 20 abuts against the support rollers 361 to better support the bagging platform 20 and keep the bagging platform 20 stable.
[0042] Furthermore, the upper and lower sides of the packaging bag 1 on the bagging platform 20 are respectively suctioned to keep the bag opening open. Specifically, the bagging platform 20 has a vacuum suction hole 24 that connects to the insertion channel 21. At the same time, the bagging mechanism also includes a bag feeding unit, which includes a material platform 50 and a transfer component 40. The material platform 50 is used to store the packaging bag 1, and the transfer component 40 has suction claws. The suction claws pick up the packaging bag 1 from the material platform 50 and transfer it to the insertion channel 21 of the bagging platform 20. At this time, the vacuum suction hole 24 of the bagging platform 20 suctions the lower side of the packaging bag 1, and the suction claws of the transfer component 40 suction the upper side of the packaging bag 1, thereby fixing the packaging bag 1 and keeping it open. At the same time, when the bagging platform 20 changes position (translating along the second direction and switching from an oblique position to a direct position), the product 2 has been partially inserted into the packaging bag 1, and the suction claws of the transfer component 40 can break the vacuum to release the suction of the packaging bag 1.
[0043] Of course, in other embodiments, other methods can be used to keep the packaging bag 1 in an open state, or if the packaging bag 1 itself can keep the bag opening open, then there is no need to use other external structures.
[0044] Example 2
[0045] The bagging mechanism provided in this embodiment is largely the same in structure as that in Embodiment 1, except that: in this embodiment, the bagging platform 20 does not perform translational movement in the second direction. Therefore, in this embodiment, the swing unit 30 is a rotary motor with a rotating platform, and the bagging platform 20 is directly fixed to the rotating platform of the rotary motor. The rotary motor drives the rotating platform to rotate, directly driving the bagging platform 20 to switch between an oblique position and a straight position.
[0046] Example 3
[0047] The bagging mechanism provided in this embodiment is largely the same in structure as that in Embodiment 1, except that: in this embodiment, the swing unit 30 cooperates with the push unit 10 to drive the insertion rod 11 of the push unit 10 to swing in the first plane, so that the insertion rod 11 of the push unit 10 switches between a facing position and an oblique position; when in the facing position, both the insertion rod 11 and the pushing channel 21 of the bagging platform 20 extend along the first direction; when in the oblique position, the extension direction of the insertion rod 11 is inclined to the first direction, but the pushing channel 21 extends along the first direction. Unit 10 drives the insertion rod 11 to move in the first direction. At the start of insertion, the tilted setting of the insertion rod 11 causes the product 2 at its front end to also insert into the opening of the packaging bag 1 at an angle, meaning one corner of the product 2 inserts into the opening of the packaging bag 1 first. Then, the swing unit 30 drives the insertion rod 11 to switch to the facing position, straightening the product. During this process, the front end of the product 2 is fully inserted into the opening of the packaging bag 1. Finally, the pushing unit 10 drives the insertion rod 11 forward until the product 2 is fully inserted into the packaging bag 1. In this way, bagging can still be completed smoothly even with a smaller opening size of the packaging bag 1, thereby reducing packaging costs and shrinking the packaging size.
[0048] Furthermore, the structural cooperation relationship between the propulsion unit 10 and the swing unit in this embodiment is as follows: the sliding frame 13 is slidably arranged along the first direction, the propulsion driver 12 drives and connects to the sliding frame 13, the swing unit 30 is a rotary motor, the rotary motor is fixed on the sliding frame 13, and the rotating platform of the rotary motor is connected to the insertion rod 11 to drive the insertion rod 11 to switch between the facing position and the oblique position; the structure is simple and easy to implement.
[0049] The above embodiments disclose the bagging mechanism applied to a disposable glove folding packaging machine. Of course, it can also be applied to other types of bagging packaging machines in other embodiments.
[0050] Although the present invention has been specifically shown and described in conjunction with preferred embodiments, those skilled in the art should understand that various changes in form and detail may be made to the present invention without departing from the spirit and scope of the present invention as defined in the appended claims, and all such changes shall be within the scope of protection of the present invention.
Claims
1. A bagging mechanism, characterized in that: The device includes a propulsion unit, a bagging platform, and a swinging unit. The bagging platform has an insertion channel for placing packaging bags. The propulsion unit has a push rod that can be driven to move between the insertion channel near or away from the bagging platform. The push rod and the insertion channel are on a first plane. The swing unit cooperates with the propulsion unit or the bagging platform to drive the insertion rod of the propulsion unit or the bagging platform to swing in a first plane, so that the insertion rod of the propulsion unit or the bagging platform switches between a facing position and an oblique position. When in the facing position, the insertion rod of the propulsion unit is directly opposite the insertion channel of the bagging platform; when in the oblique position, the insertion rod of the propulsion unit is inclined to the insertion channel of the bagging platform.
2. The bagging mechanism according to claim 1, characterized in that: The swing unit cooperates with the bagging platform. The swing unit includes a mounting plate, a linear drive assembly, and a first elastic reset member. The bagging platform is rotatably mounted on the mounting plate and has a first abutment end. The linear drive assembly moves along a straight line and abuts against the first abutment end of the bagging platform, driving the bagging platform to switch from an oblique position to a facing position. The first elastic reset member acts on the bagging platform to drive the bagging platform back to the oblique position when the bagging platform loses the force of the linear drive assembly.
3. The bagging mechanism according to claim 2, characterized in that: The linear drive assembly includes a linear driver and a slider assembly. The slider assembly is slidably mounted on a linear slide rail. The linear driver drives the slider assembly to reciprocate on the linear slide rail. The slider assembly slides in one direction and abuts against the first abutting end of the bagging platform, causing the bagging platform to switch from an oblique position to a straight position.
4. The bagging mechanism according to claim 2, characterized in that: The mounting plate can also be slidably mounted on a base. The sliding direction of the mounting plate is perpendicular to the pushing direction of the pushing unit. The mounting plate is also provided with a second abutting end. The second abutting end is contacted by the linear drive component before the first abutting end of the bagging platform, so that the mounting plate performs a translational switching before the bagging platform swings and switches. A second elastic reset member is also provided between the mounting plate and the base. The second elastic reset member drives the mounting plate to return when both the bagging platform and the mounting plate lose the force of the linear drive component.
5. The bagging mechanism according to claim 4, characterized in that: The first abutting end of the bagging platform is a first pulley fixed on the bagging platform, and the second abutting end of the mounting plate is a second pulley fixed on the mounting plate; the linear drive assembly has a drive plate, and the drive plate is provided with a first abutting surface corresponding to the first pulley and a second abutting surface corresponding to the second pulley.
6. The bagging mechanism according to claim 5, characterized in that: A support plate is also fixed on the mounting plate, and a plurality of support rollers protruding from the upper surface of the support plate are mounted on the support plate. The bottom surface of the bagging platform abuts against the support rollers.
7. The bagging mechanism according to claim 1, characterized in that: The insertion channel of the bagging platform is an insertion slot formed on the upper surface of the bagging platform.
8. The bagging mechanism according to claim 1, characterized in that: The swing unit is a rotary motor with a rotating platform, and the bagging platform is directly fixed to the rotating platform of the rotary motor.
9. The bagging mechanism according to claim 1, characterized in that: The propulsion unit includes a propulsion driver, a sliding frame, and a rod. The propulsion driver drives the sliding frame. The swing unit is a rotary motor, which is fixed on the sliding frame. The rotating platform of the rotary motor is connected to the rod to drive the rod to switch between a facing position and an oblique position.
10. A disposable glove folding and packaging machine, comprising a folding mechanism and a bagging mechanism, characterized in that: The bagging mechanism is any one of the bagging mechanisms described in claims 1 to 9, and the propulsion unit is disposed at the end of the folding mechanism.