A feeding and discharging device for a heat sealing apparatus

Abstract

The utility model relates to a kind of feeding and discharging devices for heat sealing equipment, comprising: first conveying part;Feeding assembly, including support plate, movable plate and storage plate, the movable plate with the support plate sliding connection, the storage plate with the movable plate clamping, the storage plate is connected with multiple baffle rods, multiple the baffle rod between constituting storage space;Discharging assembly, including sliding member, the conveying side of the first conveying part exists height difference between the plane and the plane of the support plate, the sliding member is between the first conveying part with the support plate;Carrying member, the carrying end of the carrying member can be moved to the conveying path of the first conveying part and the end of the moving path of the storage plate, the carrying end of the carrying member can also be moved to the input end of the sliding member.The utility model relates to a kind of feeding and discharging devices for heat sealing equipment, can improve feeding and discharging efficiency, to improve overall heat sealing processing efficiency.

Description

Technical Field

[0001] This utility model relates to the technical field of loading and unloading devices, and in particular to a loading and unloading device for heat sealing equipment. Background Technology

[0002] Heat sealing equipment is a machine that uses heat to close product packaging, achieving a sealed state. It is used for packaging sealing, material splicing, and product printing. Currently, blister packs and blister boxes are sealed using heat sealing equipment. The blister pack and blister pack are placed sequentially at the processing position of the heat sealing equipment, which then seals them. Currently, the heat sealing equipment uses a transfer mechanism for loading and unloading. The blister pack and blister box are transported by two separate conveyor mechanisms. After processing, the finished product is also transported by another conveyor mechanism. With three conveyor mechanisms and the heat sealing equipment distributed around the transfer mechanism, the transfer mechanism travels a large distance during loading and unloading, resulting in low loading and unloading efficiency, and consequently, low overall heat sealing efficiency. Utility Model Content

[0003] Therefore, the technical problem to be solved by this utility model is to provide a loading and unloading device for heat sealing equipment, which can improve the loading and unloading efficiency, thereby improving the overall heat sealing processing efficiency.

[0004] To solve the above-mentioned technical problems, this utility model provides a loading and unloading device for heat sealing equipment, comprising: a first conveying component; a loading assembly including a support plate, a movable plate, and a storage plate, wherein the movable plate is slidably connected to the support plate, the storage plate is engaged with the movable plate, and the storage plate is connected to multiple baffles, the multiple baffles forming a storage space; a unloading assembly including a sliding component, wherein there is a height difference between the plane of the conveying side of the first conveying component and the plane of the support plate, and the sliding component is located between the first conveying component and the support plate; and a transport component, wherein the transport end of the transport component can move to the end of the conveying path of the first conveying component and the moving path of the storage plate, and the transport end of the transport component can also move to the input end of the sliding component.

[0005] In one embodiment of this utility model, the projection of the sliding path of the slider onto the plane where the support plate is located is parallel to the moving path of the movable plate, and the projection of the sliding path of the slider onto the plane where the conveying side of the first conveying member is located is perpendicular to the conveying path of the first conveying member.

[0006] In one embodiment of this utility model, a lifting assembly is further included. The lifting assembly includes a driving member and a top plate. The top plate is connected to the output end of the driving member. The feeding assembly also includes a material carrier plate. The stop rod passes through the material carrier plate, and the material carrier plate is slidably connected to the stop rod. The movable plate has a first opening, and the storage plate has a second opening. The top plate can pass through the first opening and the second opening, and the top plate can abut against the material carrier plate.

[0007] In one embodiment of this utility model, a material distributing brush is connected to the end of the stop bar away from the storage plate, and the material distributing brush is located in the storage space.

[0008] In one embodiment of this utility model, the support plate is further connected to a locking member, the movable plate is connected to a snap-fit ​​member, the locking member includes a locking block, the locking block includes at least two protrusions, and a rolling member is provided on the opposite side of two adjacent protrusions. The snap-fit ​​member includes a snap-fit ​​block, the snap-fit ​​block includes a snap-fit ​​portion, the snap-fit ​​portion includes a snap-fit ​​end, the width of the snap-fit ​​end is greater than the width of the snap-fit ​​portion, and the snap-fit ​​end can extend between two adjacent protrusions.

[0009] In one embodiment of this utility model, the movable plate is provided with at least two positioning blocks, and the storage plate is provided with a positioning hole corresponding to the positioning hole block on the side close to the movable plate.

[0010] In one embodiment of the present invention, the support plate is further connected to a blocking member, and the movable plate is further connected to a stop block, the stop block being able to abut against the blocking end of the blocking member.

[0011] In one embodiment of the present invention, a baffle is connected to one end of the first conveying member that is close to the transporting member.

[0012] In one embodiment of this utility model, the output end of the conveying component is connected to a mounting plate, and the mounting plate is connected to a plurality of adsorption components.

[0013] In one embodiment of this utility model, the first conveying member is connected to an adjusting member and an adjusting plate, and the adjusting end of the adjusting member abuts against the adjusting plate.

[0014] The above-mentioned technical solution of this utility model has the following advantages compared with the prior art:

[0015] The present invention discloses a loading and unloading device for a heat sealing equipment. A height difference exists between the first conveyor and the loading assembly, and they are separated by a certain distance. This allows the sliding component to be positioned between the first conveyor and the support plate, and to be tilted, enabling the finished product to be discharged by gravity. Simultaneously, the vertical spatial arrangement of the first conveyor, loading assembly, and unloading assembly reduces the distance between the material-picking positions of the first conveyor and the loading assembly, and the material-feeding position of the unloading assembly. This results in a smaller distance traveled by the transport end of the transport component during loading and unloading, improving loading and unloading efficiency, and simultaneously increasing the overall heat sealing processing efficiency. Attached Figure Description

[0016] To make the content of this utility model easier to understand, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings.

[0017] Figure 1 This is a schematic diagram of the structure of a loading and unloading device for a heat sealing equipment according to this utility model;

[0018] Figure 2 This is a schematic diagram of the assembly structure of the first conveyor, the unloading assembly, and the loading assembly;

[0019] Figure 3 This is a schematic diagram of the assembly structure of the feeding component and the lifting component;

[0020] Figure 4 This is a structural schematic diagram of the adjusting component;

[0021] Figure 5 This is a schematic diagram of the assembly structure of the movable panel;

[0022] Figure 6 This is a schematic diagram of the assembly structure of the storage plate and the carrier plate;

[0023] Figure 7 This is a schematic diagram of the storage plate structure;

[0024] Figure 8 This is a structural schematic diagram of the lifting assembly;

[0025] Figure 9 This is a structural schematic diagram of the locking component;

[0026] Figure 10 This is a structural diagram of the fastener;

[0027] Figure 11 This is a schematic diagram of the assembly structure of the adsorption component;

[0028] Figure 12 This is a schematic diagram of the assembly structure of the second conveyor, the third conveyor, the unloading assembly, and the loading assembly.

[0029] Explanation of reference numerals in the accompanying drawings: 1. First heat-sealing device; 2. Handling component; 3. First conveyor component; 4. Unloading assembly; 5. Loading assembly; 6. Lifting assembly; 7. Second conveyor component; 8. Third conveyor component; 9. Blister box loading position; 11. Second heat-sealing device; 21. Adsorption component; 22. Mounting plate; 23. Second connecting plate; 31. Adjusting component; 32. Adjusting plate; 33. Baffle; 34. Guide plate; 35. First connecting seat; 36. First adjusting rod; 37. Second connecting seat; 38. Cutting groove; 39. Second adjusting rod; 41. Sliding component; 42. Storage box; 51. Support plate; 52. Blister box. 53. Paper; 54. Movable plate; 55. Storage plate; 56. Carrying plate; 57. Buckle; 58. Locking component; 59. Blocking component; 60. Driving component; 61. Fixing plate; 62. First connecting plate; 63. Guide rod; 64. Guide block; 65. Guide block; 66. Top plate; 531. Positioning block; 532. Stop block; 533. First opening; 541. Stop bar; 542. Distributing brush; 543. Second opening; 544. Positioning hole; 571. Third connecting seat; 572. Locking block; 573. Protrusion; 574. Rolling component; 561. Fourth connecting seat; 562. Locking block; 563. Locking part; 564. Locking end. Detailed Implementation

[0030] The present invention will be further described below with reference to the accompanying drawings and specific embodiments, so that those skilled in the art can better understand and implement the present invention. However, the embodiments are not intended to limit the present invention.

[0031] Reference Figures 1 to 3 As shown, a loading and unloading device for a heat sealing equipment according to this utility model includes: a first conveying component 3; a loading assembly 5, including a support plate 51, a movable plate 53, and a storage plate 54, wherein the movable plate 53 is slidably connected to the support plate 51, the storage plate 54 is engaged with the movable plate 53, and the storage plate 54 is connected to multiple baffles 541, the multiple baffles 541 forming a storage space; a unloading assembly 4, including a sliding component 41, wherein there is a height difference between the plane where the conveying side of the first conveying component 3 is located and the plane where the support plate 51 is located, and the sliding component 41 is located between the first conveying component 3 and the support plate 51; and a transport component 2, wherein the transport end of the transport component 2 can move to the end of the conveying path of the first conveying component 3 and the moving path of the storage plate 54, and the transport end of the transport component 2 can also move to the input end of the sliding component 41.

[0032] In this embodiment, a loading and unloading device for a heat sealing equipment is provided. The first conveyor 3 conveys the blister box to one end of the first conveyor 3 that is close to the heat sealing equipment. The blister paper 52 is located in the storage space. The movable plate 53 drives the blister paper 52 to move towards the heat sealing equipment to the limit position. The transporter 2 drives the blister box and the blister paper 52 to move sequentially to the processing position of the heat sealing equipment. After the heat sealing equipment completes the heat sealing process, the transporter 2 drives the finished product to the input end of the sliding member 41. The finished product moves along the sliding member 41 to complete the discharge. The height difference and distance between the first conveyor 3 and the feeding assembly 5 allow the sliding member 41 to be positioned between the first conveyor 3 and the support plate 51 and to be tilted, enabling the finished product to be discharged by gravity. Simultaneously, the vertical spatial arrangement of the first conveyor 3, the feeding assembly 5, and the unloading assembly 4 reduces the distance between the material-picking positions of the first conveyor 3 and the feeding position of the feeding assembly 5, and the material-feeding position of the unloading assembly 4. This results in a smaller distance traveled by the conveying end of the transport member 2 during the feeding and unloading processes, improving feeding and unloading efficiency, and simultaneously increasing the overall heat sealing processing efficiency.

[0033] Reference Figure 2 and Figure 4 As shown, the first conveyor 3 can be considered as a belt conveyor mechanism. The first conveyor 3 is used to convey blister boxes. A baffle 33 is connected to one end of the first conveyor 3 near the heat sealing equipment to prevent the blister box from falling to the outside after moving to the end of the first conveyor 3. The baffle 33 can also position the blister box so that the conveying end of the transporter 2 can accurately pick up the blister box. The first conveyor 3 is connected to an adjusting member 31 and an adjusting plate 32. Guide plates 34 are also connected to both sides of the conveyor belt on the first conveyor 3 along the conveying path. The guide plates 34 can prevent the blister box from detaching from the first conveyor 3 during movement. The adjusting plate 32 is located on the first conveyor 3 near the heat sealing equipment, and the adjusting plate 32 is located on the extension path of the guide plate 34. The adjusting plate 32 is located on one side of the conveying path on the first conveyor 3. The adjusting plate 32 can be regarded as a flexible metal plate. By bending and deforming the adjusting plate 32, the distance between the adjusting plate 32 and the guide plate 34 is changed. Thus, the adjusting plate 32, the guide plate 34 and the baffle 33 can be used to position blister boxes of different sizes.

[0034] The adjusting component 31 includes a first connecting seat 35, a second connecting seat 37, a first adjusting rod 36, and a second adjusting rod 39. The first connecting seat 35 is connected to the first conveying component 3. The first adjusting rod 36 is engaged with the first connecting seat 35 and the second connecting seat 37. The second adjusting rod 39 is engaged with the second connecting seat 37. The first adjusting rod 36 and the second adjusting rod 39 are arranged perpendicularly. The end of the second adjusting rod 39 closest to the adjusting plate 32 is the adjusting end and abuts against the adjusting plate 32. The second connecting seat 37 has a through hole and a cutting groove 38 communicating with the through hole. The first adjusting rod 36 passes through the through hole, and the second connecting seat 37 is threaded with a bolt, which also passes through the cutting groove 38. By rotating the bolt, the width of the cutting groove 38 can be adjusted so that the side wall of the through hole clamps the first adjusting rod 36, thereby allowing the first adjusting rod 36 to move to a designated position and be engaged and fixed. The engagement method between the first adjusting rod 36 and the first connecting seat 35, and between the second adjusting rod 39 and the second connecting seat 37, is the same as that between the first adjusting rod 36 and the second connecting seat 37, and will not be described again. This allows the second adjusting rod 39 to move to different positions, thereby adjusting the distance between the guide plate 34 and the adjusting plate 32.

[0035] Reference Figures 5 to 8 As shown, the feeding assembly 5 includes a support plate 51, a movable plate 53, and a storage plate 54. The support plate 51 is connected to an external support frame. The movable plate 53 is slidably connected to the support plate 51 via a slide rail and a slider. The storage plate 54 is snapped into the movable plate 53. The storage plate 54 is vertically connected to multiple baffles 541, and the multiple baffles 541 together form a storage space. Specifically, the blister pack 52 is stacked in the storage space. The baffle 541 can abut against the four sides of the blister pack 52. The side wall of the baffle 541 away from the storage plate 54 is connected to a distributing brush 542. The distributing brush 542 is located in the storage space, that is, the distributing brush 542 protrudes from the side wall of the baffle 541. The distributing brush 542 is made of flexible material. When the blister pack 52 moves upward through the conveying member 2 and leaves the storage space, the blister pack 52 will bend when it passes the distributing brush 542. This allows the distributing brush 542 to prevent multiple blister packs 52 from sticking together due to static electricity and moving out of the storage space together.

[0036] The loading and unloading device for the heat sealing equipment also includes a lifting assembly 6. The lifting assembly 6 includes a driving component 61 and a top plate 66. The driving component 61 is a linear driving component 61, which is connected to a fixed plate 62. The top plate 66 is connected to the output end of the driving component 61, and the driving component 61 can drive the top plate 66 to rise and fall. Specifically, the output end of the driving component 61 is connected to a first connecting plate 63, and the first connecting plate 63 is vertically connected to two guide rods 64. The guide rods 64 penetrate the support plate 51, and the bottom side of the support plate 51 is connected to two guide blocks 65. The guide rods 64 penetrate the guide blocks 65, and the top plate 66 is connected to the top end of the guide rods 64. The top plate 66 is located on the top side of the support plate 51 and can rise and fall. During the movement of the top plate 66 driven by the driving component 61, the guide blocks 65 can guide the movement of the top plate 66 and prevent the top plate 66 from shaking during the movement.

[0037] The feeding assembly 5 also includes a carrier plate 55, which is located on the top side of the storage plate 54. A stop bar 541 passes through the carrier plate 55, and the carrier plate 55 is slidably connected to the stop bar 541, meaning the carrier plate 55 can slide along the stop bar 541. A first opening 533 is provided in the middle of the movable plate 53, and a second opening 543 is provided in the middle of the storage plate 54. The driving member 61 can drive the top plate 66 to pass through the first opening 533 and the second opening 543, thereby allowing the top plate 66 to abut against the carrier plate 55 and drive the carrier plate 55 to rise and fall. Stacked blister packs 52 are located on the carrier plate 55. The rising and falling of the carrier plate 55 ensures that the top of the storage space retains blister packs 52, facilitating the transport end of the transport member 2 to absorb and transport the blister packs 52. This embodiment includes two movable plates 53, each of which is equipped with a storage plate 54 and a carrier plate 55. The two storage plates 54 and the two carrier plates 55 have the same structure, only different sizes, so that different sizes of blister paper 52 can be fed.

[0038] Reference Figure 9 and Figure 10As shown, a locking member 57 is also connected to the support plate 51, and a buckle member 56 is connected to the bottom side of the movable plate 53. The locking member 57 includes a third connecting seat 571 connected to the support plate 51, and a locking block 572 connected to the third connecting seat 571. The locking block 572 includes at least two protrusions 573. In this embodiment, there are two protrusions 573. A limiting groove is formed between the two protrusions 573. A rolling member 574 is provided on the opposite side of the two adjacent protrusions 573. The rolling member 574 can be regarded as a ball. A spring is provided in the protrusion 573, and the spring abuts against the rolling member 574. The latching member 56 includes a fourth connecting seat 561 connected to the movable plate 53, and a latching block 562 connected to the fourth connecting seat 561. The latching block 562 includes a latching portion 563 extending towards the locking member 57. The latching portion 563 includes a latching end 564, the width of which is greater than the width of the latching portion 563. The width of the latching end 564 is less than the distance between the protrusions 573 but greater than the distance between the rolling members 574. The movement of the movable plate 53 allows the locking end 564 to extend between two adjacent protrusions 573. During the movement of the locking end 564, the rolling element 574 moves and the spring is compressed until the locking end 564 is located between the rolling element 574 and the bottom of the limiting groove. This prevents the rolling element 574 from disengaging the locking end 564 from the limiting groove. At this time, the locking element 57 engages with the buckle element 56, thereby limiting the movable plate 53 and preventing the movable plate 53 from moving during the transport of the blister paper 52 by the transport element 2.

[0039] Reference Figure 5 As shown, the support plate 51 is also connected to a blocking member 58, which can be regarded as a buffer. The end of the movable plate 53 away from the buckle 56 is connected to a stop block 532, which can abut against the blocking end of the blocking member 58. When the stop block 532 abuts against the blocking end of the blocking member 58, the snap-fit ​​end 564 of the snap-fit ​​part 563 is located in the limiting groove. At this time, the conveying member 2 can convey the blister paper 52. By setting the blocking member 58, it is possible to avoid damage to the parts when the locking member 57 and the buckle 56 snap-fit ​​due to the excessive movement speed of the movable plate 53, and also to prevent the snap-fit ​​end 564 from moving in the opposite direction after abutting against the bottom of the limiting groove due to the excessive movement speed of the movable plate 53, causing the snap-fit ​​end 564 to disengage from the limiting groove.

[0040] Reference Figure 5 and Figure 7As shown, at least two positioning blocks 531 are connected to the top side of the movable plate 53. The storage plate 54 is provided with positioning holes 544 corresponding to the positioning blocks 531 on the side close to the movable plate 53. The positioning blocks 531 can be inserted into the positioning holes 544, thereby making the movable plate 53 and the storage plate 54 engage. It can also make the movable plate 53 and the storage plate 54 quickly positioned. Thus, when there is no blister paper 52 in the storage space, the material replacement can be quickly completed by moving the movable plate 53 and replacing the storage plate 54 carrying the blister paper 52.

[0041] Reference Figure 2 As shown, the unloading assembly 4 includes a sliding member 41, which can be considered as a flow strip mechanism. There is a height difference between the plane of the conveying side of the first conveyor 3 and the plane of the support plate 51. The sliding member 41 is located between the first conveyor 3 and the support plate 51. In this embodiment, the loading assembly 5 is located higher than the first conveyor 3. The sliding member 41 is inclined downwards and located between the first conveyor 3 and the support plate 51. The projection of the sliding path of the sliding member 41 onto the plane of the support plate 51 is parallel to the moving path of the movable plate 53. The projection of the sliding path of the sliding member 41 onto the plane of the conveying side of the first conveyor 3 is perpendicular to the conveying path of the first conveyor 3. That is, the input end of the sliding member 41 is located above the first conveyor 3, and the output end of the sliding member 41 is located below the support plate 51. A storage box 42 is also provided at the output end of the sliding member 41. The storage box 42 is used to hold the finished product after heat sealing.

[0042] Reference Figure 11 As shown, the transport component 2 can be considered as a robotic arm transport mechanism. The output end of the transport component 2 is connected to a mounting plate 22. Multiple adsorption components 21 are connected to the mounting plate 22 via multiple second connecting plates 23. The adsorption components 21 are connected to an external vacuum source and serve as the transport end, capable of adsorbing blister packs and blister paper 52. The transport end of the transport component 2 can move to the end of the transport path of the first conveyor 3 and the moving path of the storage plate 54, meaning the adsorption component 21 can adsorb the blister pack located at the end of the first conveyor 3 and the blister paper 52 located in the storage space. The adsorption component 21 can also move to the input end of the sliding component 41, meaning the adsorption component 21 can move the finished product to the input end of the sliding component 41, thereby moving the finished product into the storage box 42.

[0043] Reference Figure 1 and Figure 12As shown, this embodiment includes multiple heat sealing devices, including a first heat sealing device 1 and a second heat sealing device 11. The first heat sealing device 1 includes two heat sealing processing stations, and a transporter 2 loads and unloads materials onto one first heat sealing device 1. The second heat sealing device 11 includes one heat sealing processing station, and a transporter 2 loads and unloads materials onto two second heat sealing devices 11, with the transporter 2 corresponding to each of the two second heat sealing devices 11. This embodiment includes two first heat sealing devices 1 and two second heat sealing devices 11. A blister packing position 9 is provided between the transporters 2 corresponding to the two first heat sealing devices 1. The loading and unloading device for the heat sealing equipment also includes a second conveyor 7 and a third conveyor 8. The second conveyor 7 and the third conveyor 8 differ from the first conveyor 3 only in the length of their conveying paths; the rest of their structures are the same and will not be described further. The second conveyor 7 and the third conveyor 8 have the same conveying direction, while the first conveyor 3 has the opposite conveying direction to the third conveyor 8. The second conveyor 7 is located above the third conveyor 8. The blister pack loading position 9 is located between the first conveyor 3, the second conveyor 7, and the third conveyor 8. The ends of the first and second conveyors 3 and 7, away from the blister pack loading position 9, are located near the two first heat-sealing devices 1, respectively. The end of the third conveyor 8, away from the blister pack loading position 9, is located near the corresponding transport member 2 between the two second heat-sealing devices 11. Each transport member 2 corresponds to a loading assembly 5 and a unloading assembly 4. In this embodiment, the input ends of the three sliding members 41 are located above the first conveyor 3, the second conveyor 7, and the third conveyor 8, respectively. The blister packs can be transported to the three transport members 2 through the blister pack loading position 9, thereby improving feeding efficiency.

[0044] In use, taking a first heat sealing device 1 and a conveying component 2 as an example, the blister box is placed at the end of the first conveying component 3 at the blister box loading position 9. The first conveying component 3 conveys the blister box to one end of the first conveying component 3 that is close to the heat sealing device. The storage plate 54 carrying the blister paper 52 is positioned and locked with the movable plate 53. Then the movable plate 53 is moved until the stop block 532 abuts against the blocking end of the blocking component 58. The locking component 57 is locked with the buckle component 56. The conveying component 2 drives the adsorption component 21 to move. The adsorption component 21 drives the blister box and the blister paper 52 to move sequentially to the processing position of the heat sealing device. After the heat sealing device completes the heat sealing process, the adsorption component 21 drives the finished product to the input end of the sliding component 41. The finished product moves along the sliding component 41 into the storage box 42.

[0045] This utility model discloses a loading and unloading device for a heat sealing equipment. The first conveyor 3 and the loading assembly 5 have a height difference and are separated by a certain distance, allowing the sliding member 41 to be positioned between the first conveyor 3 and the support plate 51 and to be tilted. This enables the finished product to be discharged by gravity. Simultaneously, the vertical spatial arrangement of the first conveyor 3, the loading assembly 5, and the unloading assembly 4 reduces the distance between the material-picking positions of the first conveyor 3 and the loading assembly 5, and the material-feeding position of the unloading assembly 4. This results in a smaller distance traveled by the conveying end of the transport member 2 during loading and unloading, improving loading and unloading efficiency, and simultaneously increasing the overall heat sealing processing efficiency.

[0046] Obviously, the above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation. Those skilled in the art will recognize that other variations or modifications can be made based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.

Claims

1. A loading and unloading device for a heat sealing equipment, characterized in that, include: First conveyor component; The feeding assembly includes a support plate, a movable plate, and a storage plate. The movable plate is slidably connected to the support plate, and the storage plate is snapped into the movable plate. The storage plate is connected to multiple stop rods, and the multiple stop rods form a storage space. The feeding assembly includes a sliding member, wherein there is a height difference between the plane on the conveying side of the first conveyor and the plane on the support plate, and the sliding member is located between the first conveyor and the support plate; The transport component has a transport end that can move to the end of the transport path of the first conveyor and the moving path of the storage plate, and the transport end of the transport component can also move to the input end of the slider.

2. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The projection of the sliding path of the slider onto the plane of the support plate is parallel to the moving path of the movable plate, and the projection of the sliding path of the slider onto the plane of the conveying side of the first conveyor is perpendicular to the conveying path of the first conveyor.

3. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: It also includes a lifting assembly, which includes a drive component and a top plate. The top plate is connected to the output end of the drive component. The feeding assembly also includes a material carrier plate. The baffle passes through the material carrier plate, and the material carrier plate is slidably connected to the baffle. The movable plate has a first opening, and the storage plate has a second opening. The top plate can pass through the first opening and the second opening, and the top plate can abut against the material carrier plate.

4. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The end of the stop bar away from the storage plate is connected to a material distributing brush, which is located within the storage space.

5. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The support plate is also connected to a locking member, and the movable plate is connected to a buckle member. The locking member includes a locking block, which includes at least two protrusions. Rolling members are provided on the opposite sides of two adjacent protrusions. The buckle member includes a buckle block, which includes a buckling portion. The buckling portion includes a buckling end, the width of which is greater than the width of the buckling portion. The buckling end can extend between two adjacent protrusions.

6. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The movable plate is provided with at least two positioning blocks, and the storage plate is provided with positioning holes corresponding to the positioning blocks on the side close to the movable plate.

7. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The support plate is also connected to a blocking member, and the movable plate is also connected to a stop block, which can abut against the blocking end of the blocking member.

8. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: A baffle is connected to one end of the first conveying component that is close to the transporting component.

9. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The output end of the transport component is connected to a mounting plate, and the mounting plate is connected to multiple adsorption components.

10. The loading and unloading device for heat sealing equipment according to claim 1, characterized in that: The first conveying component is connected to an adjusting component and an adjusting plate, and the adjusting end of the adjusting component abuts against the adjusting plate.

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