Glue dispensing assembly and glue dispenser

By using multiple glue tubes and valves in the glue dispensing equipment, the problem of glue mixing and contamination was solved, achieving efficient and low-waste glue switching and improving the quality and efficiency of glue application for photovoltaic modules.

CN224463060UActive Publication Date: 2026-07-07DAH SOLAR CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DAH SOLAR CO LTD
Filing Date
2025-04-18
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing glue dispensing equipment is prone to glue mixing when switching between different glues, causing pollution and waste, and affecting glue dispensing quality and efficiency.

Method used

The system employs a structure with multiple hoses and valves. Through the movement and coordination of the valve core, different adhesives can selectively pass through specific channels, avoiding mixing and waste.

Benefits of technology

It effectively avoids glue contamination, reduces glue waste, and improves the quality and efficiency of glue application.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to photovoltaic equipment technical field, more particularly, relate to a kind of glue outlet subassembly and glue outlet machine.The glue outlet subassembly includes first valve, second valve and multiple rubber pipes, first valve has first chamber;First valve is used to be connected with glue bucket, to make first chamber and the accommodating cavity of glue bucket intercommunication;Second valve has second chamber;Second valve is used to be connected with glue head;Every rubber pipe is connected with first valve and second valve;Every rubber pipe has passage;Wherein, the passage of multiple rubber pipes is alternatively connected with first chamber and second chamber intercommunication.The glue outlet subassembly can avoid multiple glue to mix together, to avoid pollution to glue, improve the quality and efficiency of gluing.
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Description

Technical Field

[0001] This utility model relates to the field of photovoltaic equipment technology, and more specifically, to a glue dispensing component and a glue dispensing machine. Background Technology

[0002] With the rapid development of the photovoltaic industry, the manufacturing process of photovoltaic modules is constantly being optimized. Among these processes, frame adhesive application is a key step that directly affects the sealing performance and appearance quality of the modules. The frames of photovoltaic modules are typically white or black, therefore, adhesives of corresponding colors must be used for application to ensure the module's aesthetic harmony.

[0003] However, when using existing glue dispensing equipment to switch between different glues for gluing, multiple glues are easily mixed together, causing glue contamination and affecting the quality of gluing. Utility Model Content

[0004] The purpose of this invention is to provide a glue dispensing component and a glue dispensing machine that can prevent multiple glues from being mixed together, thereby avoiding glue contamination and improving the quality and efficiency of glue application.

[0005] The embodiments of this utility model can be implemented as follows:

[0006] In a first aspect, this utility model provides a glue dispensing component, comprising:

[0007] A first valve having a first chamber; the first valve is used to connect to a glue bucket so that the first chamber and the receiving cavity of the glue bucket are in communication;

[0008] The second valve has a second chamber; the second valve is used to connect to the dispensing head.

[0009] Multiple hoses, each hose connected to a first valve and a second valve; each hose has a channel;

[0010] Among them, one of the channels of multiple tubing is connected to the first chamber and the second chamber.

[0011] In an optional embodiment, the first valve includes a first valve body and a first valve core, the first valve body and the first valve core being movably connected; the first valve body is provided with a first chamber, and the first valve core is used to switch the communication state between the first chamber and multiple channels;

[0012] The second valve includes a second valve body and a second valve core, which are movably connected. The second valve body is provided with a second chamber, and the second valve core is used to switch the connection state between the second chamber and multiple channels.

[0013] In an optional embodiment, the first valve body has a first glue inlet and multiple first glue outlets, with each of the multiple first glue outlets corresponding to a multiple glue tube; the first chamber is connected to the glue tank through the first glue inlet and to the corresponding channel through the first glue outlets.

[0014] Among them, multiple first glue outlets are connected to the first glue inlet through a first valve core.

[0015] In an optional embodiment, the second valve body has a second glue outlet and multiple second glue inlets, with each of the multiple second glue inlets corresponding to a multiple glue tube; the second glue outlet is used to guide the glue in the second chamber into the glue dispensing head; the second chamber is connected to the corresponding channel through the second glue inlets.

[0016] Among them, multiple second glue inlets are connected to a second glue outlet through a second valve core.

[0017] Secondly, this utility model provides a glue dispensing machine, including: the aforementioned glue dispensing component;

[0018] Base plate, used to hold the glue bucket;

[0019] Pressure plate, used to squeeze the glue in the receiving cavity;

[0020] The driver has a fixed end connected to the base plate and a movable end connected to the pressure plate.

[0021] The slow-flow pipe is connected to the pressure plate and the first valve, and is used to guide the glue in the receiving cavity to move to the first chamber.

[0022] In an optional embodiment, the pressure plate is provided with a through hole; the slow-flow pipe is provided with a flow channel and a glue delivery port, the flow channel is connected to the receiving cavity of the glue bucket through the through hole; and the flow channel is connected to the first chamber through the glue delivery port.

[0023] The glue inlet is located at the end furthest from the base plate.

[0024] In an optional embodiment, the glue dispenser further includes a flow sensor disposed at the glue inlet; the flow sensor is used to detect the flow rate of the glue at the glue inlet.

[0025] In an optional embodiment, the dispensing machine further includes a washer fitted onto the pressure plate and conforming to the inner wall of the glue bucket.

[0026] In an optional embodiment, the glue dispenser further includes a snap-fit ​​component disposed on the base plate for snapping into the glue bucket.

[0027] In an optional embodiment, the glue dispenser also includes a slide rail disposed on the base plate, and the driver slides in cooperation with the slide rail.

[0028] The beneficial effects of the dispensing assembly and dispensing machine provided in this embodiment of the invention include:

[0029] The dispensing assembly includes a first valve, a second valve, and multiple dispensing tubes. The first valve has a first chamber and is used to connect to a glue tank so that the first chamber and the receiving chamber of the glue tank are in communication. The second valve has a second chamber and is used to connect to a dispensing head. Each dispensing tube is connected to both the first and second valves and has a channel. The channel of each dispensing tube is selectively connected to either the first or second chamber.

[0030] This dispensing assembly connects to multiple glue tubes via a first and second valve body. This allows each tube to selectively communicate with both a first and a second chamber, ensuring different glues flow through their respective channels. This avoids the need to expel excess glue when applying new glue, preventing waste and saving costs. Furthermore, the assembly prevents different glues from mixing and contaminating the glue, thus improving dispensing quality and efficiency. Attached Figure Description

[0031] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation on the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.

[0032] Figure 1 This is a schematic diagram of the adhesive dispensing assembly provided in this embodiment;

[0033] Figure 2 This is a schematic diagram of the dispensing machine provided in this embodiment;

[0034] Figure 3 This is a cross-sectional schematic diagram of the dispensing assembly provided in this embodiment;

[0035] Figure 4 This is a cross-sectional schematic diagram of the pressure plate, the slow-flow pipe, the flow sensor, and the glue bucket;

[0036] Figure 5 This is a schematic diagram of the structure of the first valve provided in this embodiment;

[0037] Figure 6 This is a schematic diagram of the structure of the second valve provided in this embodiment.

[0038] Icons: 100-Dispensing assembly; 110-First valve; 111-First valve body; 112-First valve core; 113-First inlet; 114-First outlet; 101-First chamber; 120-Second valve; 121-Second valve body; 122-Second valve core; 123-Second outlet; 124-Second inlet; 102-Second chamber; 130-Hoses; 103-Channel; 200-Dispensing machine; 210-Base plate; 220-Pressure plate; 221-Through hole; 230-Actuator; 240-Slow flow pipe; 241-Flow channel; 242-Dispensing port; 250-Flow sensor; 310-Hoses; 311-Containing cavity. Detailed Implementation

[0039] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0040] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0041] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0042] In the description of this utility model, it should be noted that if terms such as "upper," "lower," "inner," or "outer" are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship in which the utility model product is usually placed during use, they are only for the convenience of describing this utility model and simplifying the description, 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, and therefore should not be construed as a limitation of this utility model.

[0043] Furthermore, the terms "first" and "second" are used only to distinguish descriptions and should not be interpreted as indicating or implying relative importance.

[0044] It should be noted that, where there is no conflict, the features in the embodiments of this utility model can be combined with each other.

[0045] In existing technologies, glue dispensing machines typically employ a single-pipe design, meaning there is only one dispensing pipe 130 for conveying the glue. When switching to a different color glue, the operator needs to drain the old glue from the pipe, with the new glue squeezing out the old glue.

[0046] This operating method has obvious drawbacks: First, the extrusion of old glue by new glue leads to a large waste of glue, increasing production costs; second, because old glue may remain on the inner wall of the pipe, it is difficult to completely remove the old glue during the discharge process, which can easily cause glue contamination and affect the glue application quality; finally, the frequent glue switching operation is cumbersome and reduces production efficiency.

[0047] Based on the above issues, please refer to Figure 1 and Figure 2 This utility model provides a glue dispensing machine 200 to improve production efficiency. Figure 1 This is a schematic diagram of the structure of the dispensing assembly 100 provided in this embodiment; Figure 2 This is a schematic diagram of the dispensing machine 200 provided in this embodiment.

[0048] The glue dispensing machine 200 includes a base plate 210, a pressure plate 220, and a driver 230. The base plate 210 is used to place the glue bucket 310. The driver 230 is connected to the base plate 210 and the pressure plate 220. The pressure plate 220 is driven by the driver 230 to squeeze the glue in the receiving cavity 311 of the glue bucket 310 to squeeze out the glue in the receiving cavity 311.

[0049] In this embodiment, the actuator 230 employs a telescopic cylinder, with its fixed end connected to the base plate 210 and its movable end connected to the pressure plate 220, thereby enabling the pressure plate 220 to move relative to the base plate 210. Specifically, the pressure plate 220 is located above the base plate 210, thus it is positioned above the glue container 310, directly opposite the opening of the glue container 310. The pressure plate 220 moves downward to approach the receiving cavity 311, and after contacting the glue, the pressure plate 220 continues to move downward, thereby squeezing the glue out of the receiving cavity 311.

[0050] The glue dispensing machine 200 also includes a slow-flow pipe 240 and a glue dispensing assembly 100. The slow-flow pipe 240 is connected to the pressure plate 220 and the glue dispensing assembly 100. Glue enters the slow-flow pipe 240 under the pressure of the pressure plate 220 and is guided into the glue dispensing assembly 100. Understandably, the flow rate of the glue is uncontrollable when it is squeezed by the pressure plate 220. To ensure a uniform flow rate of glue into the glue dispensing assembly 100 and to completely fill the assembly after entry, preventing gaps and ensuring uninterrupted glue dispensing, the dispensing process is designed to address these issues.

[0051] Further, please refer to Figures 1-4 , Figure 3 This is a cross-sectional schematic diagram of the dispensing assembly 100 provided in this embodiment; Figure 4 This is a cross-sectional schematic diagram of the pressure plate 220, the slow-flow pipe 240, the flow sensor 250, and the glue bucket 310.

[0052] The dispensing assembly 100 in this embodiment includes a first valve 110, a second valve 120, and multiple dispensing tubes 130. Each dispensing tube 130 is connected to both the first valve 110 and the second valve 120, and both the first valve 110 and the second valve 120 are connected to the ends of the dispensing tubes 130. The first valve 110 is connected to a slow-flow pipe 240, thereby indirectly connecting the dispensing tank 310 after it is placed on the base plate 210. The first valve 110 has a first chamber 101, the slow-flow pipe 240 is provided with a flow channel 241 and a dispensing port 242, and the pressure plate 220 has a through hole 221. The first chamber 101 and the flow channel 241 are connected through the dispensing port 242, and the flow channel 241 is connected to the receiving cavity 311 through the through hole 221.

[0053] Understandably, the first chamber 101, the flow channel 241, and the receiving cavity 311 are connected in sequence. After the pressure plate 220 squeezes the glue, the glue will move from the receiving cavity 311 to the flow channel 241. The pressure plate 220 continues to squeeze the glue, and the glue that enters the flow channel 241 later pushes the glue that enters the flow channel 241 earlier, thereby causing the glue to move from the flow channel 241 to the first chamber 101.

[0054] It should be noted that in order for the glue to flow into the first chamber 101 at a uniform speed, the glue needs to flow through the flow channel 241 for a certain period of time. Therefore, the glue inlet 242 needs to be a certain distance from the pressure plate 220. In this embodiment, the glue inlet 242 is located on the side wall of the slow-flow pipe 240, and the distance between the glue inlet 242 and the pressure plate 220 is greater than the distance between the glue inlet 242 and the other end of the slow-flow pipe 240. In other embodiments, the glue inlet 242 can also be located at the end away from the buffer pipe and away from the base plate 210.

[0055] Based on the above, in this embodiment, a flow sensor 250 is provided at the glue inlet 242 of the buffer pipe to detect the flow rate of glue entering the first chamber 101 from the glue inlet 242.

[0056] The second valve 120 in the dispensing assembly 100 has a second chamber 102, and each tube 130 has a channel 103. One of the channels 103 of the multiple tubes 130 is selectively connected to both the first chamber 101 and the second chamber 102. Understandably, in this embodiment, when the first chamber 101 is connected to the channel 103 of a particular tube 130, the second chamber 102 is also connected to the channel 103 of that tube 130. This allows the adhesive to flow from the first chamber 101 through the channel 103 and then into the second chamber 102. At this time, neither the first chamber 101 nor the second chamber 102 is connected to the channels 103 of other tubes 130, thus preventing adhesive from flowing into other channels 103.

[0057] Since multiple types of adhesives are required when applying glue to photovoltaic modules, this embodiment sets up multiple glue tubes 130 corresponding to each type of adhesive, so that each type of adhesive can flow into the second chamber 102 through the corresponding glue tube 130; and the second valve 120 is used to connect the glue applicator head, which is used to apply the adhesive in the second chamber 102 onto the photovoltaic module.

[0058] Specifically, this embodiment has two glue tubes 130, one for black glue and the other for white glue, thus avoiding the mixing of two different colored glues in one glue tube 130 during the glue application process. Therefore, when using other colored glues, it is not necessary to squeeze out the previous glue, reducing glue waste and saving costs; it also avoids glue contamination, improving the quality and efficiency of glue application.

[0059] Further, please refer to Figures 1-6 , Figure 5 This is a schematic diagram of the structure of the first valve 110 provided in this embodiment; Figure 6 This is a schematic diagram of the structure of the second valve 120 provided in this embodiment.

[0060] The first valve 110 includes a first valve body 111 and a first valve core 112, the first valve body 111 and the first valve core 112 being movably connected; the first valve body 111 is provided with a first chamber 101, and the first valve core 112 is used to switch the communication state between the first chamber 101 and multiple channels 103.

[0061] Understandably, in this embodiment, the first valve core 112 and the first valve body 111 are movable together to connect the first chamber 101 with the channels 103 of different tubes 130. When the first chamber 101 is connected with a certain channel 103, the first valve core 112 blocks other channels 103, thereby preventing glue from entering other channels 103, so as to achieve the purpose of different glues entering the corresponding channels 103.

[0062] Specifically, the first valve body 111 has a first glue inlet 113 and multiple first glue outlets 114, with each of the multiple first glue outlets 114 corresponding to a multiple glue tubes 130; the first chamber 101 is connected to the glue tank 310 through the first glue inlet 113 and to the corresponding channel 103 through the first glue outlets 114, wherein each of the multiple first glue outlets 114 is connected to the first glue inlet 113 through a first valve core 112.

[0063] The adhesive enters the first chamber 101 through the flow channel 241, the adhesive inlet 242, and the first inlet 113. The first valve core 112, through its movable cooperation with the first valve body 111, connects one first outlet 114 to the first inlet 113, thereby connecting the corresponding channel 103 of the first outlet 114 to the first chamber 101. Other first outlets 114 are blocked by the first valve core 112, preventing the adhesive from entering the channels 103 of other adhesive tubes 130. This ensures that the adhesive can only enter the corresponding adhesive tube 130, preventing different adhesives from being mixed in the same adhesive tube 130.

[0064] Understandably, in this embodiment, the first valve body 111 and the first valve core 112 work together to block different first glue outlets 114, so that only one first glue outlet 114 is connected to the first glue inlet 113, thereby changing the connection state between the channel 103 of different glue tubes 130 and the first chamber 101.

[0065] Similarly, in this embodiment, the second valve 120 includes a second valve body 121 and a second valve core 122, the second valve body 121 and the second valve core 122 being movably connected; the second valve body 121 is provided with a second chamber 102, and the second valve core 122 is used to switch the communication state between the second chamber 102 and the multiple channels 103.

[0066] Furthermore, the second valve body 121 has a second glue outlet 123 and multiple second glue inlets 124, with each of the multiple second glue inlets 124 corresponding to a multiple glue tube 130; the second glue outlet 123 is used to guide the glue in the second chamber 102 into the glue applicator; the second chamber 102 is connected to the corresponding channel 103 through the second glue inlets 124; wherein, one of the multiple second glue inlets 124 is connected to the second glue outlet 123 through the second valve core 122.

[0067] Multiple second glue inlets 124 correspond one-to-one with multiple glue tubes 130, and multiple glue tubes 130 correspond one-to-one with multiple first glue outlets 114. Therefore, multiple second glue inlets 124 correspond one-to-one with multiple first glue outlets 114. When the first valve body 111 and the first valve core 112 are engaged to connect a first glue outlet 114 and a first glue inlet 113, the second valve core 122 should also engage with the second valve body 121 to open the corresponding second glue inlet 124, so that the glue can flow sequentially through the corresponding first glue outlet 114, channel 103 and second glue inlet 124, and then be dispensed through the second glue outlet 123, thus completing the glue dispensing process.

[0068] However, when it is necessary to switch to different glues for dispensing, the first valve core 112 switches to another first glue outlet 114, and the second valve core 122 also needs to switch accordingly to block the previous second glue inlet 124 and open the new second glue inlet 124, thereby avoiding the phenomenon that one end of the channel 103 is connected while the other end is blocked, so that the glue dispensing machine 200 can dispense glue smoothly.

[0069] In this embodiment, there are two first glue outlets 114 and two glue inlets 124. It can be understood that the first valve 110 and the second valve 120 in this embodiment are both three-way valves. In other embodiments, the number of first glue outlets 114 and second glue inlets 124 can be adjusted according to the required amount of glue, and the first valve 110 and the second valve 120 can be selected with appropriate valve structures, such as four-way valves.

[0070] It should also be noted that in this embodiment, the first valve core 112 and the second valve core 122 are spherical structures. Therefore, the first valve 110 and the second valve 120 are ball valves, and the operator can change the connection state of the channels 103 of the different hoses 130 by rotating the first valve core 112 and the second valve core 122. In other embodiments, other types of valves may also be used.

[0071] Furthermore, in this embodiment, when the pressure plate 220 extends into the receiving cavity 311, the side wall of the pressure plate 220 fits against the inner wall of the receiving cavity 311, preventing the glue from flowing out from the gap between them and sticking to the side of the pressure plate 220 near the slow-flow pipe 240, thus avoiding waste of glue.

[0072] Since the cross-sectional diameter of the receiving cavity 311 of different glue buckets 310 is different, the glue dispenser 200 also includes a washer, which is fitted onto the pressure plate 220 to fill the gap between the side wall of the pressure plate 220 and the inner wall of the receiving cavity 311, and to reduce the friction between the two.

[0073] In this embodiment, after the worker finishes applying one type of adhesive, the glue bucket 310 is removed, and the glue bucket 310 containing another type of adhesive is placed on the base plate 210 to apply the new adhesive. During this process, the first valve core 112 and the second valve core 122 need to be rotated to connect the first chamber 101 and the second chamber 102 with the channel 103 of the other glue tube 130.

[0074] To improve the securing effect of the glue bucket 310, this embodiment provides a snap-fit ​​component at the base plate 210 to secure the glue bucket 310. In other embodiments, bolts and nuts can also be used to secure the glue bucket 310.

[0075] In other embodiments, a slide rail can be provided on the base plate 210, and the driver 230 can be slidably connected to the slide rail, so that multiple glue buckets 310 can be placed at the same time. By sliding the driver 230, the pressure plate 220, the slow flow pipe 240 and the glue dispensing component 100 can be moved to different glue buckets 310 to quickly switch different glues for dispensing.

[0076] In summary, this embodiment connects the first valve body 111 and the second valve body 121 to multiple adhesive tubes 130, allowing one of the channels 103 of the multiple adhesive tubes 130 to communicate with both the first chamber 101 and the second chamber 102. This enables different adhesives to flow through different channels 103, avoiding the need to squeeze out existing adhesive when applying new adhesive, thus preventing adhesive waste and saving costs. Furthermore, this embodiment also prevents different adhesives from mixing and causing adhesive contamination, thereby improving the quality and efficiency of adhesive application.

[0077] The above description is only a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model.

Claims

1. A glue dispensing assembly, characterized in that, include: A first valve (110) has a first chamber (101); the first valve (110) is used to connect to a glue bucket (310) so that the first chamber (101) and the receiving cavity (311) of the glue bucket (310) are in communication; A second valve (120) having a second chamber (102); the second valve (120) is used to connect to a glue applicator head; Multiple hoses (130), each hose (130) is connected to the first valve (110) and the second valve (120); each hose (130) has a channel (103); Among them, one of the channels (103) of the plurality of tubing (130) is connected to the first chamber (101) and the second chamber (102).

2. The dispensing assembly according to claim 1, characterized in that, The first valve (110) includes a first valve body (111) and a first valve core (112), the first valve body (111) and the first valve core (112) being movably connected; the first valve body (111) is provided with a first chamber (101), and the first valve core (112) is used to switch the communication state between the first chamber (101) and the plurality of channels (103); The second valve (120) includes a second valve body (121) and a second valve core (122), the second valve body (121) and the second valve core (122) being movably connected; the second valve body (121) is provided with a second chamber (102), and the second valve core (122) is used to switch the communication state between the second chamber (102) and the plurality of channels (103).

3. The dispensing assembly according to claim 2, characterized in that, The first valve body (111) has a first glue inlet (113) and a plurality of first glue outlets (114), and the plurality of first glue outlets (114) correspond one-to-one with the plurality of glue tubes (130); the first chamber (101) is connected to the glue tank (310) through the first glue inlet (113) and is connected to the corresponding channel (103) through the first glue outlets (114); Among them, one of the first glue outlets (114) is connected to the first glue inlet (113) through the first valve core (112).

4. The dispensing assembly according to claim 2, characterized in that, The second valve body (121) has a second glue outlet (123) and multiple second glue inlets (124), with each of the multiple second glue inlets (124) corresponding to a multiple glue tubes (130); the second glue outlet (123) is used to guide the glue in the second chamber (102) into the glue applicator; the second chamber (102) is connected to the corresponding channel (103) through the second glue inlets (124); Among them, one of the second glue inlets (124) is connected to the second glue outlet (123) through the second valve core (122).

5. A glue dispensing machine, characterized in that, include: The dispensing assembly (100) according to any one of claims 1-4; A base plate (210) is used to place the glue bucket (310). A pressure plate (220) is used to squeeze the glue in the receiving cavity (311); A driver (230) has a fixed end connected to the base plate (210) and a movable end connected to the pressure plate (220). Slow-flow pipe (240), which is connected to the pressure plate (220) and the first valve (110), and is used to guide the glue in the receiving cavity (311) to move to the first chamber (101).

6. The glue dispensing machine according to claim 5, characterized in that, The pressure plate (220) is provided with a through hole (221); the slow-flow pipe (240) is provided with a flow channel (241) and a glue inlet (242), the flow channel (241) is connected to the receiving cavity (311) of the glue bucket (310) through the through hole (221); and the flow channel (241) is connected to the first chamber (101) through the glue inlet (242); The glue inlet (242) is located at one end away from the base plate (210).

7. The glue dispensing machine according to claim 6, characterized in that, The glue dispensing machine (200) also includes a flow sensor (250), which is disposed at the glue inlet (242); the flow sensor (250) is used to detect the flow rate of the glue at the glue inlet (242).

8. The glue dispensing machine according to claim 5, characterized in that, The glue dispenser (200) also includes a washer, which is fitted onto the pressure plate (220) and is in contact with the inner wall of the glue bucket (310).

9. The glue dispensing machine according to claim 5, characterized in that, The glue dispensing machine (200) also includes a snap-fit ​​component disposed on the base plate (210), which is used to snap-fit ​​with the glue bucket (310).

10. The glue dispensing machine according to claim 5, characterized in that, The glue dispensing machine (200) also includes a slide rail disposed on the base plate (210), and the driver (230) slides in cooperation with the slide rail.