Automatic gluing and laminating integrated machine
By designing an automatic glue application and bonding machine, the automatic bonding of dishwasher glass and panels has been achieved, solving the problem of low production efficiency caused by manual operation in existing technologies, improving production efficiency and reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHEN ZHEN DENGFENG TECH CO LTD
- Filing Date
- 2025-05-26
- Publication Date
- 2026-06-12
AI Technical Summary
The existing dishwasher glass and panel bonding process involves a lot of manual labor, resulting in low production efficiency.
An automated adhesive application and bonding machine was designed, including a frame, sliding components, fixtures, adhesive application components, gripping and placing components, pressure holding components, and control components. It realizes the automated bonding process of dishwasher accessories, and completes the automated operation through steps such as adhesive application, gripping, and pressure holding.
This greatly improves the efficiency of dishwasher component bonding, reduces production costs, and minimizes the need for manual labor.
Smart Images

Figure CN224348573U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of adhesive application and bonding equipment, specifically to an automatic adhesive application and bonding integrated machine. Background Technology
[0002] With the improvement of living standards, dishwashers are becoming an indispensable kitchen appliance in many households. The manufacturing process of a dishwasher involves bonding glass to a panel. Current production methods are typically semi-automated, where workers apply adhesive to the panel using a glue gun and then place the glass on it. While this method is less expensive, its high level of manual labor results in relatively low production efficiency.
[0003] Therefore, a new type of production equipment is urgently needed. Utility Model Content
[0004] This invention proposes an automatic glue application and bonding machine, which solves the problem of low production efficiency caused by the extensive manual operation involved in the bonding process of dishwasher glass and dishwasher panels.
[0005] The technical solution of this utility model is as follows: An automatic adhesive application and bonding machine, comprising:
[0006] frame;
[0007] A sliding assembly, slidably mounted on the frame and including a slide table;
[0008] A fixture, set on the slide and used to fix the dishwasher fitting to be bonded;
[0009] An adhesive application assembly, mounted on the frame, has a movable adhesive application gun;
[0010] A gripping and placing component is mounted on the rack and used to grip one dishwasher accessory and place it on another dishwasher accessory.
[0011] A pressure-holding assembly, mounted on the frame, has a pressure-holding plate that moves in a vertical direction;
[0012] A control component is disposed on the side of the frame and electrically connected to the sliding component, the adhesive application component, and the pressure holding component;
[0013] The fixture and the sliding component are both in two sets and are set in a one-to-one correspondence.
[0014] As a further technical solution, a cleaning component is also included, which is disposed on the frame and used to clean the surface of the dishwasher accessories to be coated with adhesive, and the cleaning component is electrically connected to the control component.
[0015] As a further technical solution, the cleaning component includes:
[0016] Clean the support frame, which is installed on the frame;
[0017] A cleaning drive unit is disposed on the cleaning bracket and has cleaning drive ends that can move independently in the vertical and horizontal directions, and the cleaning drive unit is electrically connected to the control component;
[0018] A plasma spray gun is mounted on the cleaning drive end.
[0019] As a further technical solution, the sliding component also includes:
[0020] A sliding actuator, mounted on the frame and electrically connected to the control components, the sliding actuator having a sliding drive end connected to the bottom of the slide table;
[0021] The first guide member is disposed between the frame and the slide.
[0022] As a further technical solution, the sliding assembly also includes a limiting plate, which is disposed on the frame and located at both ends of the first guide member.
[0023] As a further technical solution, the adhesive coating assembly also includes:
[0024] An adhesive application bracket is mounted on the frame.
[0025] An adhesive application drive unit is disposed on the adhesive application bracket and has an adhesive application drive end that moves independently in the vertical and horizontal directions. The adhesive application drive unit is electrically connected to the control component, and the adhesive application gun is disposed on the adhesive application drive end.
[0026] As a further technical solution, the grasping and placing component includes:
[0027] A gripping bracket is mounted on the frame;
[0028] A gripping drive unit is disposed on the gripping bracket and has gripping drive ends that can move independently in the vertical and horizontal directions, and the gripping drive unit is electrically connected to the control component;
[0029] A negative pressure suction cup is provided on the gripping drive end and is used to adsorb dishwasher accessories to be gripped.
[0030] As a further technical solution, the grasping and placing component also includes:
[0031] A camera is mounted on the grasping drive end and electrically connected to the control component;
[0032] The light source is mounted on the gripping bracket.
[0033] As a further technical solution, the pressure-holding assembly also includes:
[0034] A pressure-holding bracket is mounted on the frame;
[0035] A pressure-holding drive component is disposed on the pressure-holding bracket and has a pressure-holding drive end that moves in a vertical direction. The pressure-holding drive component is electrically connected to the control component, and the pressure-holding plate is disposed on the pressure-holding drive end.
[0036] As a further technical solution, the pressure-holding assembly also includes:
[0037] A pressure relief plate is slidably connected to the pressure holding plate in the vertical direction. The pressure relief plate moves with the pressure holding plate in the vertical direction and presses against the dishwasher accessories.
[0038] The pressure relief spring has one end abutting against the pressure relief plate and the other end abutting against the pressure holding plate.
[0039] The working principle and beneficial effects of this utility model are as follows: The automatic glue application and bonding machine includes a frame, a sliding assembly, a fixture, a glue application assembly, a gripping and placing assembly, a pressure holding assembly, and a control assembly. The sliding assembly, glue application assembly, gripping and placing assembly, pressure holding assembly, and control assembly are all mounted on the frame. The sliding assembly includes a slide table that reciprocates horizontally. The fixture is mounted on the slide table and is used to fix the dishwasher accessories. With the cooperation of the fixture and the slide table, the dishwasher accessories can sequentially pass through the glue application assembly, the gripping and placing assembly, and the pressure holding assembly. After the dishwasher accessories move to the gluing assembly, the glue gun in the gluing assembly applies glue to the accessories. The accessories then move to the gripping and placing assembly. Since two dishwasher accessories that need to be bonded together are placed on the fixture, one accessory is gripped from the fixture and placed on the other. At this point, glue is applied to the bonding area of the two accessories. After gripping and placing, the two accessories remain on the fixture and move to the pressure holding assembly. The pressure holding plate inside the assembly moves vertically until it presses against the dishwasher accessory. After a certain period of rest, the pressure holding plate separates from the accessory. During this resting period, the glue solidifies, thus completing the bonding between the two accessories. The control assembly electrically connects the sliding assembly, gluing assembly, gripping and placing assembly, and pressure holding assembly, enabling automated and coordinated operation between the modules and reducing manual intervention. Because two sets of sliding components and two sets of fixtures are set up, and one set of fixtures is set on one set of sliding components, the two sets of fixtures and sliding components can run to the glue application component, the gripping and placing component and the pressure holding component in a staggered manner. This setting not only fully realizes the automated bonding between the two dishwasher parts, but also performs bonding operations on the two sets of dishwasher parts at the same time, which greatly improves the bonding efficiency of space parts and thus reduces the production cost of air conditioners. Attached Figure Description
[0040] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0041] Figure 1 A schematic diagram of the overall structure of the automatic glue application and bonding machine provided by this utility model;
[0042] Figure 2 for Figure 1 A structural diagram from the first angle;
[0043] Figure 3 for Figure 1 A structural diagram from the second angle;
[0044] Figure 4 for Figure 1 A structural diagram from a third perspective;
[0045] Figure 5 This is a schematic diagram of the structure after the sliding component and the frame are assembled in this utility model;
[0046] Figure 6 for Figure 5 A structural diagram from another angle;
[0047] Figure 7 This is a schematic diagram of the adhesive coating component in this utility model;
[0048] Figure 8 for Figure 7 A structural diagram from another angle;
[0049] Figure 9 This is a schematic diagram of the gripping and placing component in this utility model;
[0050] Figure 10 for Figure 9 A structural diagram from another angle;
[0051] Figure 11 This is a schematic diagram of the pressure-holding component in this utility model;
[0052] Figure 12 for Figure 11 A structural diagram from another angle;
[0053] Figure 13 This is a schematic diagram of the cleaning component in this utility model;
[0054] Figure 14 for Figure 13 A structural diagram from another angle.
[0055] In the picture:
[0056] 1. Frame; 2. Sliding assembly; 3. Fixture; 4. Glue application assembly; 5. Gripping and placing assembly; 6. Pressure holding assembly; 7. Control assembly; 8. Cleaning assembly;
[0057] 21. Sliding actuator; 22. First guide member; 23. Limiting plate; 24. Slide table 24;
[0058] 41. Glue gun; 42. Glue holder; 43. Glue driving component;
[0059] 51. Gripping bracket; 52. Gripping drive component; 53. Negative pressure suction cup; 54. Separator; 55. Camera; 56. Light source;
[0060] 61. Pressure holding plate; 62. Pressure holding bracket; 63. Pressure holding drive component; 64. Pressure relief plate; 65. Pressure relief spring;
[0061] 81. Clean the bracket; 82. Clean the drive components; 83. Plasma spray gun. Detailed Implementation
[0062] The technical solutions of this utility model will be clearly and completely described below with reference to the embodiments of this utility model. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this utility model.
[0063] like Figures 1 to 14 As shown, this embodiment proposes an automatic adhesive application and bonding machine, comprising:
[0064] Rack 1;
[0065] Sliding assembly 2 is slidably mounted on frame 1 and includes slide table 24;
[0066] Fixture 3 is set on slide 24 and used to fix the dishwasher accessory to be bonded;
[0067] The glue application assembly 4 is mounted on the frame 1 and has a movable glue application gun 41;
[0068] The gripping and placing component 5 is mounted on the rack 1 and is used to grip one of the dishwasher accessories and place it on another dishwasher accessory.
[0069] Pressure holding assembly 6 is mounted on frame 1 and has a pressure holding plate 61 that moves in the vertical direction;
[0070] The control component 7 is located on the side of the frame 1 and is electrically connected to the sliding component 2, the glue application component 4 and the pressure holding component 6;
[0071] Among them, there are two sets of fixture 3 and sliding component 2, and they are set one to one.
[0072] In this embodiment, the automatic adhesive application and bonding machine includes a frame 1, a sliding assembly 2, a fixture 3, an adhesive application assembly 4, a gripping and placing assembly 5, a pressure holding assembly 6, and a control assembly 7. The sliding assembly 2, adhesive application assembly 4, gripping and placing assembly 5, pressure holding assembly 6, and control assembly 7 are all mounted on the frame 1. The sliding assembly 2 includes a slide table 24 that reciprocates horizontally. The fixture 3 is mounted on the slide table 24 and is used to fix the dishwasher accessories. With the cooperation of the fixture 3 and the slide table 24, the dishwasher accessories can sequentially pass through the adhesive application assembly 4, the gripping and placing assembly 5, and the pressure holding assembly 6. After the dishwasher accessory moves to the gluing assembly 4, the glue gun 41 in the gluing assembly 4 applies glue to the dishwasher accessory. Then, the dishwasher accessory continues to move to the gripping and placing assembly 5. Since two dishwasher accessories that need to be bonded together are placed on the fixture 3, one dishwasher accessory is gripped from the fixture 3 and placed on the other dishwasher accessory. At this time, the glue is located at the bonding area of the two dishwasher accessories. After gripping and placing, the two dishwasher accessories are still on the fixture 3, so they continue to move into the pressure holding assembly 6. The pressure holding plate 61 inside the pressure holding assembly 6 moves vertically until it presses on the dishwasher accessory. After a certain period of rest, the pressure holding plate 61 separates from the dishwasher accessory. During this resting period, the glue solidifies, thus completing the bonding between the two dishwasher accessories. The control assembly 7 electrically connects the sliding assembly 2, the gluing assembly 4, the gripping and placing assembly 5, and the pressure holding assembly 6, which can realize the automated coordinated operation between the modules and reduce the degree of manual intervention. Because two sets of sliding components 2 and two sets of fixtures 3 are set up, and one set of fixtures 3 is set on one set of sliding components 2, the two sets of fixtures 3 and sliding components 2 can run to the glue application component 4, the gripping and placing component 5 and the pressure holding component 6 in a staggered manner. This setting not only fully realizes the automated bonding between the two dishwasher parts, but also performs bonding operations on the two sets of dishwasher parts at the same time, which greatly improves the bonding efficiency of space parts and thus reduces the production cost of air conditioners.
[0073] Furthermore, such as Figures 1-4 , Figures 13-14 As shown, this embodiment also includes a cleaning component 8, which is disposed on the frame 1 and used to clean the surface of the dishwasher accessories to be coated with glue. The cleaning component 8 is electrically connected to the control component 7.
[0074] In this embodiment, the automatic glue application and bonding machine also includes a cleaning component 8. The cleaning component 8 is set on the frame 1 and located in front of the glue application component 4. Before the product is glued, in order to improve the bonding quality, the surface to be glued needs to be cleaned first. The cleaning component 8 is used to clean the surface impurities of the dishwasher accessories to be glued.
[0075] Furthermore, such as Figures 1-4 , Figures 13-14As shown, this embodiment proposes a cleaning component 8 including:
[0076] Clean the bracket 81, which is set on the rack 1;
[0077] The cleaning drive component 82 is mounted on the cleaning bracket 81 and has cleaning drive ends that can move independently in the vertical and horizontal directions. The cleaning drive component 82 is electrically connected to the control component 7.
[0078] Plasma spray gun 83 is installed on the cleaning drive end.
[0079] In this embodiment, the cleaning component 8 includes a cleaning bracket 81, a cleaning drive component 82, and a plasma spray gun 83. The cleaning bracket 81 is mounted on the frame 1, and the cleaning drive component 82 is mounted on the cleaning bracket 81. The cleaning drive component 82 consists of two parts, both of which are linear drive structures, thus enabling the cleaning drive end to move independently in both the vertical and horizontal directions. The cleaning drive component 82 is electrically connected to the control component 7. The plasma spray gun 83 is mounted on the cleaning drive end and is used to spray flames onto the dishwasher panel. The flames can clean impurities on the panel and moderately heat the panel, allowing adhesive to quickly adhere to the panel.
[0080] Furthermore, such as Figures 1-6 As shown, this embodiment proposes that the sliding component 2 further includes:
[0081] A sliding actuator 21 is mounted on the frame 1 and electrically connected to the control assembly 7. The sliding actuator 21 has a sliding drive end, which is connected to the bottom of the slide table 24.
[0082] The first guide member 22 is disposed between the frame 1 and the slide table 24.
[0083] In this embodiment, the sliding assembly 2 includes a slide table 24, a sliding driver 21, and a first guide member 22. The sliding driver 21 is mounted on the frame 1 and electrically connected to the control assembly. The sliding driver 21 has a sliding drive end, which is located at the bottom of the slide table 24 and is used to provide power for the reciprocating linear movement of the slide table 24. The first guide member 22 is located between the frame 1 and the slide table 24 and is used to improve the stability of the reciprocating movement of the slide table 24 on the frame 1.
[0084] It should be noted that the first guide member 22 is a common structure, such as a combination of a guide rail and a slider.
[0085] Furthermore, such as Figures 1-6 As shown, this embodiment proposes that the sliding component 2 also includes a limiting plate 23, which is disposed on the frame 1 and located at both ends of the first guide member 22.
[0086] In this embodiment, in order to ensure the stable operation of the slide table 24 on the frame 1 and to prevent the slide table 24 from falling off the frame 1, the sliding assembly 2 also includes a limiting plate 23. The limiting plate 23 is disposed on the frame 1. There are two limiting plates 23 and they are symmetrically disposed at both ends of the first guide member 22. In this way, the slide table 24 will be intercepted at the extreme position, thereby preventing the slide table 24 from falling off the frame 1.
[0087] Furthermore, such as Figures 1-4 , Figures 7-8 As shown, this embodiment proposes that the adhesive application component 4 also includes:
[0088] The glue application bracket 42 is mounted on the frame 1;
[0089] The glue application drive 43 is mounted on the glue application bracket 42 and has glue application drive ends that can move independently in the vertical and horizontal directions. The glue application drive 43 is electrically connected to the control assembly 7, and the glue application gun 41 is mounted on the glue application drive end.
[0090] In this embodiment, the glue application assembly 4 includes a glue application gun 41, a glue application bracket 42, and a glue application drive 43. The glue application bracket 42 is mounted on the frame 1, and the glue application drive 43 is mounted on the glue application bracket 42. The glue application drive 43 comprises two parts, both of which are pushers capable of linear movement. These two parts cooperate to form a glue application drive end that can move independently in both the vertical and horizontal directions. The glue application drive 43 is electrically connected to the control assembly 7. The glue application gun 41 is mounted on the glue application drive end, allowing the glue application gun 41 to be adjusted in position along both the horizontal and vertical directions. There is only one glue application gun 41, but it can correspond to two sets of sliding assemblies 2 and two sets of fixtures 3.
[0091] Furthermore, such as Figures 1-4 , Figures 9-10 As shown, this embodiment proposes a grasping and placing component 5, which includes:
[0092] The gripping bracket 51 is mounted on the frame 1;
[0093] The gripping drive unit 52 is mounted on the gripping bracket 51 and has gripping drive ends that can move independently in the vertical and horizontal directions. The gripping drive unit 52 is electrically connected to the control assembly 7.
[0094] Negative pressure suction cup 53 is set on the gripping drive end and is used to adsorb dishwasher accessories to be gripped.
[0095] In this embodiment, the gripping and placing assembly 5 includes a gripping bracket 51, a gripping drive component 52, and a negative pressure suction cup 53. The gripping bracket 51 is mounted on the frame 1, and the gripping drive component 52 is mounted on the gripping bracket 51. The gripping drive component 52 is also composed of two parts, both of which are push-up components capable of linear reciprocating movement. The combination of these two parts constitutes the gripping drive end. The negative pressure suction cup 53 is mounted on the gripping drive end, thereby enabling positional adjustment in both vertical and horizontal directions. The negative pressure suction cup 53 adheres to the dishwasher accessory (glass), and the glass is adsorbed onto the negative pressure suction cup 53 through negative pressure. Finally, the glass is placed on the panel by movement. The gripping and placing assembly 5 also includes a separator 54, which is set on the gripping drive end. The end of the separator 54 has a certain elasticity and can be compressed. After the dishwasher accessory is attracted by the negative pressure suction cup 53, the end of the separator 54 will be compressed, thus forming a certain deformation. When the negative pressure is reduced, the end of the separator 54 will recover, thus quickly separating the negative pressure suction cup 53 and the dishwasher accessory.
[0096] Furthermore, such as Figures 1-4 , Figures 9-10 As shown, this embodiment proposes that the grasping and placing component 5 also includes:
[0097] Camera 55 is mounted on the grasping drive end and electrically connected to control component 7;
[0098] The light source 56 is mounted on the gripping bracket 51.
[0099] In this embodiment, in order to improve the accuracy of placing the glass on the panel and thus ensure that the bonding surfaces are well adhered together, the gripping and placing component 5 also includes a camera 55 and a light source 56. The camera 55 is set on the gripping drive end and is electrically connected to the control component 7. The camera 55 moves with the gripping drive end, thereby realizing the position adjustment of the two dishwasher accessories by capturing the edges of the dishwasher accessories. The light source 56 is set on the gripping bracket 51 and is used to provide the scene that the camera 55 can capture.
[0100] Furthermore, such as Figures 1-4 , Figures 11-12 As shown, this embodiment proposes that the pressure-holding assembly 6 also includes:
[0101] Pressure holding bracket 62 is mounted on frame 1;
[0102] The pressure holding drive 63 is disposed on the pressure holding bracket 62 and has a pressure holding drive end that moves in the vertical direction. The pressure holding drive 63 is electrically connected to the control assembly 7, and the pressure holding plate 61 is disposed on the pressure holding drive end.
[0103] In this embodiment, the pressure-holding assembly 6 includes a pressure-holding plate 61, a pressure-holding bracket 62, and a pressure-holding drive component 63. The pressure-holding bracket 62 is mounted on the frame 1, and the pressure-holding drive component 63 is mounted on the pressure-holding bracket 62. The pressure-holding drive component 63 consists of two parts, each of which is a pusher that can provide linear movement. The combination of the two pushers forms the pressure-holding drive end. The pressure-holding plate 61 is pressed against the dishwasher accessories by means of the pressure-holding drive component 63, thereby ensuring a tight bond between the two dishwasher accessories and improving the quality of the bonded product.
[0104] Furthermore, such as Figures 1-4 , Figures 11-12 As shown, this embodiment proposes that the pressure-holding assembly 6 also includes:
[0105] The pressure relief plate 64 is slidably connected to the pressure holding plate 61 in the vertical direction. The pressure relief plate 64 moves in the vertical direction with the pressure holding plate 61 and presses against the dishwasher accessories.
[0106] The pressure relief spring 65 has one end abutting against the pressure relief plate 64 and the other end abutting against the pressure holding plate 61.
[0107] In this embodiment, to prevent the pressure holding assembly 6 from damaging the dishwasher accessories, the pressure holding assembly 6 also includes a pressure relief plate 64 and a pressure relief spring 65. The pressure relief plate 64 is disposed on the pressure holding plate 61, and the pressure relief spring 65 is disposed between the pressure relief plate 64 and the pressure holding plate 61. The pressure relief plate 64 can move vertically relative to the pressure holding plate 61, and the pressure relief spring 65 can be compressed. This can prevent the dishwasher accessories from being damaged due to excessive pressure.
[0108] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model shall be included within the protection scope of the present utility model.
Claims
1. An automatic adhesive application and bonding machine, characterized in that, include: Rack (1); The sliding assembly (2) is slidably disposed on the frame (1) and includes a slide table (24); A fixture (3) is provided on the slide (24) and is used to fix the dishwasher fitting to be bonded; The glue application assembly (4) is mounted on the frame (1) and has a movable glue application gun (41). A gripping and placing component (5) is mounted on the frame (1) and used to grip one of the dishwasher accessories and place it on another dishwasher accessory; Pressure holding assembly (6) is disposed on the frame (1) and has a pressure holding plate (61) that moves in the vertical direction. A control component (7) is disposed on the side of the frame (1) and electrically connected to the sliding component (2), the glue application component (4) and the pressure holding component (6). The fixture (3) and the sliding component (2) are both two sets and are set in a one-to-one correspondence.
2. The automatic adhesive application and bonding machine according to claim 1, characterized in that, It also includes a cleaning component (8), which is disposed on the frame (1) and used to clean the surface of the dishwasher accessories to be glued, and the cleaning component (8) is electrically connected to the control component (7).
3. The automatic adhesive application and bonding machine according to claim 2, characterized in that, The cleaning component (8) includes: Cleaning bracket (81) is set on the frame (1); A cleaning drive unit (82) is disposed on the cleaning bracket (81) and has a cleaning drive end that moves independently in the vertical and horizontal directions respectively. The cleaning drive unit (82) is electrically connected to the control component (7). A plasma spray gun (83) is mounted on the cleaning drive end.
4. The automatic adhesive application and bonding machine according to any one of claims 1-3, characterized in that, The sliding component (2) further includes: A sliding actuator (21) is mounted on the frame (1) and electrically connected to the control assembly (7). The sliding actuator (21) has a sliding drive end connected to the bottom of the slide table (24). The first guide (22) is disposed between the frame (1) and the slide (24).
5. The automatic adhesive application and bonding machine according to claim 4, characterized in that, The sliding assembly (2) also includes a limiting plate (23), which is disposed on the frame (1) and located at both ends of the first guide member (22).
6. The automatic adhesive application and bonding machine according to any one of claims 1-3, characterized in that, The adhesive coating assembly (4) also includes: An adhesive application bracket (42) is mounted on the frame (1); The glue application drive (43) is disposed on the glue application bracket (42) and has a glue application drive end that moves independently in the vertical and horizontal directions. The glue application drive (43) is electrically connected to the control component (7), and the glue application gun (41) is disposed on the glue application drive end.
7. The automatic adhesive application and bonding machine according to any one of claims 1-3, characterized in that, The grasping and placing component (5) includes: A gripping bracket (51) is mounted on the frame (1); A gripping drive (52) is disposed on the gripping bracket (51) and has gripping drive ends that can move independently in the vertical and horizontal directions respectively. The gripping drive (52) is electrically connected to the control component (7). A negative pressure suction cup (53) is provided on the gripping drive end and is used to adsorb dishwasher accessories to be gripped.
8. The automatic adhesive application and bonding machine according to claim 7, characterized in that, The grasping and placing component (5) also includes: A camera (55) is mounted on the grasping drive end and electrically connected to the control component (7); The light source (56) is mounted on the gripping bracket (51).
9. The automatic adhesive application and bonding machine according to any one of claims 1-3, characterized in that, The pressure-holding assembly (6) also includes: A pressure-holding bracket (62) is mounted on the frame (1); A pressure holding drive (63) is disposed on the pressure holding bracket (62) and has a pressure holding drive end that moves in the vertical direction. The pressure holding drive (63) is electrically connected to the control component (7), and the pressure holding plate (61) is disposed on the pressure holding drive end.
10. The automatic adhesive application and bonding machine according to claim 9, characterized in that, The pressure-holding assembly (6) also includes: The pressure relief plate (64) is slidably connected to the pressure holding plate (61) in the vertical direction. The pressure relief plate (64) moves in the vertical direction along with the pressure holding plate (61) and presses against the dishwasher accessories. The pressure relief spring (65) has one end abutting against the pressure relief plate (64) and the other end abutting against the pressure holding plate (61).