Glass door and window assembling and gluing equipment

By designing a glass door and window assembly adhesive application equipment, and using a mechanical operation method to apply hot melt adhesive, the problems of uneven adhesive application and low automation level were solved, achieving efficient and uniform adhesive application and automated production.

CN224389190UActive Publication Date: 2026-06-23GUANGDONG ROSERY BATH EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG ROSERY BATH EQUIP CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-23

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Abstract

The utility model discloses a kind of glass door and window assembly gluing equipment, including base, gluing mechanism and movement mechanism, and the placing table for profile frame strip placement is equipped on base, gluing mechanism includes first connecting seat and glue gun, glue gun is located in first connecting seat and has glue outlet, glue gun can be connected with external glue supply equipment and output hot melt adhesive by glue outlet, movement mechanism is located in base and is driven to be connected with first connecting seat, movement mechanism can drive first connecting seat to move relative to placing table, to drive glue gun to move along the extension direction of profile frame strip on placing table.The utility model can be in the hot melt adhesive of the gluing surface of profile frame strip by the mode of mechanical operation, it is favorable to ensure that gluing is uniform, improve production efficiency and degree of automation, can preferably meet the demand of large-scale production and continuous production.
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Description

Technical Field

[0001] This utility model relates to the field of production equipment technology, and in particular to a glass door and window assembly adhesive coating equipment. Background Technology

[0002] Existing glass doors and windows typically consist of a glass body and a frame strip surrounding the glass body. During production, adhesive is first applied to the mounting grooves of the frame strips. Then, the frame strips and glass body are assembled, with the edges of the glass body inserted into the mounting grooves, and the two are bonded together using hot melt adhesive. Current adhesive application methods usually involve workers using a hand-held glue gun to apply hot melt adhesive to the surface of the frame strips. This method is highly dependent on worker skill, and improper operation can easily lead to uneven adhesive application, affecting subsequent assembly. Furthermore, it has low production efficiency and a low degree of automation, making it difficult to meet the needs of large-scale and continuous production. Utility Model Content

[0003] This invention aims to solve at least one of the technical problems existing in the prior art. To this end, this invention proposes a glass door and window assembly adhesive application equipment, which applies hot melt adhesive to the adhesive surface of the profile frame strip through mechanical operation. This helps ensure uniform adhesive application, improves production efficiency and automation, and can better meet the needs of large-scale and continuous production.

[0004] The glass door and window assembly adhesive application equipment according to the embodiment of this utility model includes a base, an adhesive application mechanism, and a motion mechanism. The base is provided with a placement platform for placing profile frame strips. The adhesive application mechanism includes a first connecting seat and an adhesive gun. The adhesive gun is located on the first connecting seat and has an adhesive outlet. The adhesive gun can be connected to an external adhesive supply device and outputs hot melt adhesive through the adhesive outlet. The motion mechanism is located on the base and is drivenly connected to the first connecting seat. The motion mechanism can drive the first connecting seat to move relative to the placement platform, so as to drive the adhesive gun to move along the extension direction of the profile frame strips on the placement platform.

[0005] The glass door and window assembly adhesive application equipment according to the embodiments of this utility model has at least the following beneficial effects: In use, the profile frame strip is placed on the placement platform. An external adhesive supply device is connected to the adhesive gun of the adhesive application mechanism to supply hot melt adhesive to the adhesive gun. The motion mechanism drives the first connecting seat to move relative to the placement platform, thereby moving the adhesive gun on it along the extension direction of the profile frame strip on the placement platform. While moving, the adhesive gun outputs hot melt adhesive through the dispensing nozzle to coat the adhesive surface of the profile frame strip, thus achieving the adhesive application operation. This utility model applies hot melt adhesive to the adhesive surface of the profile frame strip through mechanical operation, which helps ensure uniform adhesive application, improves production efficiency and automation, and can better meet the needs of large-scale and continuous production.

[0006] According to some embodiments of the present invention, the glue application mechanism further includes an auxiliary pump and a first driver. The glue gun is connected to the auxiliary pump and can be connected to an external glue supply device through the auxiliary pump. The first driver is driven to the auxiliary pump and is used to drive the auxiliary pump to work.

[0007] According to some embodiments of the present invention, the glue gun is provided with a first heating element.

[0008] According to some embodiments of the present invention, the adhesive application mechanism further includes a sensing element for sensing the profile frame strip on the placement platform.

[0009] According to some embodiments of the present invention, the motion mechanism includes a first drive assembly, a second drive assembly, a drive motor, a movable seat, and a rack. The movable seat is slidably connected to the base and its movement direction is parallel to the front-back direction. The rack is fixedly disposed on the base and extends along the movement direction of the movable seat. The drive motor is disposed on the movable seat and is driven by a gear. The gear and the rack mesh through a helical tooth structure. The first drive assembly is drivenly connected to the first connecting seat and is used to drive the first connecting seat to move up and down. The second drive assembly is disposed on the movable seat and connected to the first drive assembly and is used to drive the first drive assembly to move left and right.

[0010] According to some embodiments of the present invention, the placement platform is provided with a second electric heating element.

[0011] According to some embodiments of the present invention, the base is provided with a sealing component for sealing the glue outlet, and the glue gun can be moved to cooperate with the sealing component.

[0012] According to some embodiments of the present invention, the glass door and window assembly adhesive application equipment further includes a pretreatment mechanism. The motion mechanism is drivenly connected to the pretreatment mechanism and can drive the pretreatment mechanism to move along the extension direction of the profile frame strip on the placement platform. The pretreatment mechanism is used to clean the adhesive application surface of the profile frame strip.

[0013] According to some embodiments of the present invention, the pretreatment mechanism includes a second connecting seat and a flame gun. The flame gun is disposed on the second connecting seat and is capable of performing plasma flame treatment on the adhesive-coated surface of the profile frame strip.

[0014] According to some embodiments of the present invention, the pretreatment mechanism further includes a first adjusting seat and a second driver. The flame gun is disposed on the first adjusting seat and rotatably connected to the second connecting seat through the first adjusting seat. The second driver is connected to the first adjusting seat and is used to drive the first adjusting seat to rotate relative to the second connecting seat, so as to change the flame angle of the flame gun relative to the adhesive surface of the profile frame.

[0015] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0016] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0017] Figure 1 This is a schematic diagram of the structure of the glass door and window assembly and adhesive application equipment according to an embodiment of the present utility model;

[0018] Figure 2 for Figure 1 A side view of the adhesive application equipment for assembling medium-sized glass doors and windows;

[0019] Figure 3 for Figure 1 A top view of the structure of the gluing equipment for assembling and applying adhesive to medium-sized glass doors and windows;

[0020] Figure 4 for Figure 1 Schematic diagram of the intermediate coating mechanism;

[0021] Figure 5 for Figure 1 A schematic diagram of the pretreatment mechanism.

[0022] Figure label:

[0023] Profile frame strip 10;

[0024] Base 100, placement platform 110, positioning block 111, second heating element 112, sealing assembly 120, fluid chamber 121;

[0025] The adhesive application mechanism 200, the first connecting seat 210, the glue gun 220, the first heating element 221, the auxiliary pump 230, the first driver 240, the sensing element 250, and the third adjusting seat 260 are included.

[0026] Motion mechanism 300, first drive assembly 310, second drive assembly 320, drive motor 330, moving seat 340, rack 350;

[0027] Pretreatment mechanism 400, second connecting seat 410, flame gun 420, first adjusting seat 430, second driver 440, second adjusting seat 450. Detailed Implementation

[0028] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0029] In the description of this utility model, it should be understood that if directional descriptions are involved, such as up, down, front, back, left, right, etc., indicating the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings, it is only for the convenience of describing this utility model and simplifying the description, and does 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.

[0030] In the description of this utility model, if words such as several, greater than, less than, exceeding, above, below, or within appear, several means one or more, multiple means two or more, greater than, less than, exceeding, etc. are understood to exclude the number itself, and above, below, or within are understood to include the number itself.

[0031] If the terms "first" and "second" are used only to distinguish technical features, they should not be construed as indicating or implying relative importance, or implicitly indicating the number of technical features indicated, or implicitly indicating the order of the technical features indicated.

[0032] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.

[0033] Reference Figure 1 , Figure 2 , Figure 3 and Figure 4A glass door and window assembly adhesive application device includes a base 100, an adhesive application mechanism 200, and a motion mechanism 300. The base 100 is provided with a placement platform 110 for placing profile frame strips 10. The adhesive application mechanism 200 includes a first connecting seat 210 and an adhesive gun 220. The adhesive gun 220 is located on the first connecting seat 210 and has an adhesive outlet (not shown in the figure). The adhesive gun 220 can be connected to an external adhesive supply device and output hot melt adhesive through the adhesive outlet. The motion mechanism 300 is located on the base 100 and is drivenly connected to the first connecting seat 210. The motion mechanism 300 can drive the first connecting seat 210 to move relative to the placement platform 110, so as to drive the adhesive gun 220 to move along the extension direction of the profile frame strips 10 on the placement platform 110.

[0034] Understandably, as shown in the figure Figure 1 , Figure 2 , Figure 3 and Figure 4 As shown, a placement platform 110 is provided on the base 100, and a positioning block 111 is provided on the placement platform 110. The positioning block 111 extends in the front-back direction. In use, the profile frame 10 is placed on the placement platform 110 and abuts against the positioning block 111 to achieve positioning. An external glue supply device is connected to the glue gun 220 of the glue application mechanism 200 to supply hot melt glue to the glue gun 220. The motion mechanism 300 drives the first connecting seat 210 to move relative to the placement platform 110, so that the glue gun 220 is located on the upper side of the profile frame 10. The motion mechanism 300 drives the first connecting seat 210 to move back and forth, so as to drive the glue gun 220 on it to move along the extension direction of the profile frame 10 on the placement platform 110. While moving, the glue gun 220 outputs hot melt glue through the glue outlet to coat the glued surface of the profile frame 10, thereby realizing the glue application operation of the profile frame 10. This invention applies hot melt adhesive to the adhesive-coated surface of the profile frame 10 through mechanical operation, which helps to ensure uniform adhesive application, improve production efficiency and automation, and better meet the needs of large-scale and continuous production.

[0035] In practical applications, the external glue supply device can be a pump that delivers hot melt glue in fluid form to the glue gun 220. It can also include a melter to heat and melt the hot melt glue into a fluid. The specific settings can be made according to the actual needs of use, which should be understood by those skilled in the art.

[0036] In some embodiments, multiple glue guns 220 are provided and spaced apart. It is understood that, as Figure 3 and Figure 4As shown, two glue guns 220 are provided and spaced apart in the left-right direction. Correspondingly, two positioning blocks 111 on the placement table 110 are provided and spaced apart in the left-right direction, so that two profile frame strips 10 can be positioned and placed on the placement table 110 at intervals. The two glue guns 220 can simultaneously apply glue to the two profile frame strips 10, which helps to improve production efficiency and realize the simultaneous glue application of multiple profile frame strips 10. In actual application, the specific number and distribution of glue guns 220 can be set according to the actual needs of use.

[0037] In some embodiments, the glue application mechanism 200 further includes an auxiliary pump 230 and a first driver 240. The glue gun 220 is connected to the auxiliary pump 230 and can be connected to an external glue supply device through the auxiliary pump 230. The first driver 240 is driven to drive the auxiliary pump 230 to work.

[0038] Understandably, such as Figure 2 and Figure 4 As shown, the glue gun 220 is connected to the auxiliary pump 230, and the first driver 240 is connected to the auxiliary pump 230 to drive it. In use, the glue gun 220 is connected to an external glue supply device via the auxiliary pump 230 to re-pump the hot melt glue delivered to the coating mechanism 200 from the external supply device. This helps control the pressure and flow rate of the hot melt glue delivered to the glue gun 220, ensuring uniform glue dispensing and ease of use. In practical applications, the auxiliary pump 230 and the first driver 240 can be selected and configured according to actual usage needs.

[0039] In some embodiments, the glue gun 220 is provided with a first heating element 221. It is understood that, as Figure 4 As shown, by setting a first heating element 221 in the glue gun 220, the hot melt adhesive in the glue gun 220 can be heated to ensure that it is in a fluid state, giving it good fluidity and reducing the possibility of the glue gun 220 becoming clogged due to the hot melt adhesive solidifying. It also helps to ensure uniform glue dispensing and facilitates use. In practical applications, the specific number and distribution of the first heating element 221 can be set according to actual usage needs.

[0040] In some embodiments, the adhesive application mechanism 200 further includes a sensing element 250 for sensing the profile frame strip 10 on the placement stage 110. It is understood that, as Figure 2 , Figure 3 and Figure 4As shown, the sensing element 250 is located on the front side of the glue gun 220 to sense the profile frame strip 10 on the platform 110 below it. During the glue application process, the glue gun 220 senses the profile frame strip 10 through the sensing element 250, thereby identifying the length information of the profile frame strip 10. This enables automatic identification of the length of the profile frame strip 10 for glue application, improving the level of automation. In practical applications, the sensing element 250 can be an infrared sensor or a Hall sensor, etc., and can be set accordingly based on actual usage requirements.

[0041] In some embodiments, the motion mechanism 300 includes a first drive assembly 310, a second drive assembly 320, a drive motor 330, a movable seat 340, and a rack 350. The movable seat 340 is slidably connected to the base 100 and its movement direction is parallel to the front-back direction. The rack 350 is fixedly disposed on the base 100 and extends along the movement direction of the movable seat 340. The drive motor 330 is disposed on the movable seat 340 and is driven by a gear (not shown in the figure). The gear and the rack 350 mesh through a helical tooth structure. The first drive assembly 310 is drivenly connected to the first connecting seat 210 and is used to drive the first connecting seat 210 to move up and down. The second drive assembly 320 is disposed on the movable seat 340 and connected to the first drive assembly 310 and is used to drive the first drive assembly 310 to move left and right.

[0042] Understandably, such as Figure 1 , Figure 2 and Figure 3 As shown, the movable seat 340 is slidably connected to the base 100 and moves in a direction parallel to the front-back direction. The rack 350 is fixedly mounted on the base 100 and extends in the front-back direction. The drive motor 330 is mounted on the movable seat 340 and is connected to a gear (not shown in the figure). The gear and rack 350 mesh through a helical tooth structure. The drive motor 330 drives the gear to rotate, and the movable seat 340 moves back and forth using the gear and rack 350 structure. The helical tooth meshing transmission improves the smoothness of the movable seat 340's back-back movement. The second drive assembly 320 is mounted on the movable seat 340 and connected to the first drive assembly 310, and is used to drive the first drive assembly 310 to move left and right. The first drive assembly 310 is driven to connect to the first connecting seat 210, and is used to drive the first connecting seat 210 to move up and down. This realizes the three-axis movement of the glue applicator 200 in the front-back, left-right, and up-down directions, which is convenient to use. In practical applications, the structure of the motion mechanism 300 can be varied, such as being driven by a linear motor, by a cylinder, or by a combination of a motor and a lead screw. The motion mechanism 300 can also include a multi-axis manipulator to drive the movement and rotation of the glue application mechanism 200. The specific settings can be made according to the actual needs of the application.

[0043] In some embodiments, the placement platform 110 is provided with a second heating element 112. It is understood that, as Figure 2 As shown, multiple second heating elements 112 are inserted into the placement platform 110, and these elements are spaced apart along the front-to-back direction. By installing the second heating elements 112 on the placement platform 110, the platform 110 can be heated and the heat transferred to the profile frame 10. Before the adhesive application process begins, the profile frame 10 placed on the placement platform 110 can be preheated. During the adhesive application process, the second heating elements 112 can be used to keep the profile frame 10 warm, meeting the performance requirements of the hot melt adhesive. This improves the bonding strength of subsequent assembly and facilitates use. In practical applications, the specific number and distribution of the second heating elements 112 can be set according to actual usage needs.

[0044] In some embodiments, a protective layer (not shown) is provided on the upper side of the placement platform 110 for contact with the profile frame 10. It is understood that by providing a protective layer on the upper side of the placement platform 110, when the profile frame 10 is placed on the upper side of the placement platform 110, the profile frame 10 contacts the protective layer, which helps to reduce the possibility of damage to the paint layer on the surface of the profile frame 10 due to collision or friction between the profile frame 10 and the placement platform 110, thus protecting the surface appearance quality of the profile frame 10. In practical applications, the protective layer can be a high-temperature adhesive tape or a thermally conductive soft adhesive layer pasted on the upper side of the placement platform 110, and can be specifically set according to actual usage needs.

[0045] In some embodiments, the base 100 is provided with a sealing assembly 120 for sealing the glue outlet, and the glue gun 220 can move to cooperate with the sealing assembly 120.

[0046] Understandably, such as Figure 1 , Figure 2 and Figure 3 As shown, the sealing component 120 is located on the rear side of the placement platform 110 and two are provided corresponding to the glue gun 220. In use, after the glue application is completed, the motion mechanism 300 drives the glue application mechanism 200 to move, so that the glue gun 220 moves to cooperate with the sealing component 120. The sealing component 120 seals the glue outlet of the glue gun 220, which prevents the hot melt glue at the outlet from being in contact with the outside air for a long time when not in use, thus avoiding a decrease in bonding performance or solidification. This helps to ensure work efficiency and glue application quality, improve the utilization efficiency of hot melt glue, and save glue consumption.

[0047] Specifically, the sealing assembly 120 is provided with an open fluid cavity 121 and is capable of heating the fluid cavity 121. The fluid cavity 121 can contain liquid alloy tin, and the glue gun 220 can move to immerse the glue outlet in the liquid alloy tin of the fluid cavity 121 or contact the surface of the liquid alloy tin of the fluid cavity 121.

[0048] Understandably, such as Figure 1 , Figure 2 and Figure 3 As shown, the sealing assembly 120 has an open fluid cavity 121. In use, alloy tin is placed in the fluid cavity 121, and the sealing assembly 120 heats the fluid cavity 121 to make the alloy tin in the fluid cavity 121 liquid. When it is necessary to seal the glue outlet, the glue gun 220 moves to immerse the glue outlet in the liquid alloy tin in the fluid cavity 121 or to contact the surface of the liquid alloy tin in the fluid cavity 121. The alloy tin is used to seal the glue outlet. At the same time, the alloy tin can also be used to transfer heat to the hot melt glue at the glue outlet to prevent it from solidifying and achieve a better sealing effect.

[0049] When it is necessary to seal the glue outlet, as a preferred solution, the glue gun 220 moves until the glue outlet comes into contact with the liquid alloy tin surface of the fluid cavity 121. Utilizing the characteristics of liquid alloy tin, a relatively stable oxide film structure will form on its surface. When in contact with the glue outlet, it will not react with the hot melt adhesive at the glue outlet, nor will it adhere to the glue outlet, thus achieving a better sealing and isolation effect.

[0050] In practical applications, in addition to the above structure, the sealing component 120 can also adopt other structures, such as a cover structure. When it is necessary to seal the glue outlet, the glue gun 220 moves to insert the glue outlet into the sealing component 120, and the sealing component 120 covers and blocks the glue outlet to seal it. The specific settings can be made according to the actual use needs.

[0051] In some embodiments, the glass door and window assembly adhesive application equipment further includes a pretreatment mechanism 400, and a motion mechanism 300 is drivenly connected to the pretreatment mechanism 400, which can drive the pretreatment mechanism 400 to move along the extension direction of the profile frame strip 10 on the placement platform 110. The pretreatment mechanism 400 is used to clean the adhesive application surface of the profile frame strip 10.

[0052] Understandably, such as Figure 1 , Figure 2 , Figure 3 and Figure 5 As shown, the pretreatment mechanism 400 is located in front of the glue application mechanism 200. By setting the pretreatment mechanism 400, before the glue application operation, the motion mechanism 300 can drive the pretreatment mechanism 400 to move back and forth. The pretreatment mechanism 400 cleans the glue application surface of the profile frame 10 on the placement table 110, ensuring that the glue application surface is clean and improving the adhesion strength during subsequent assembly.

[0053] Specifically, the pretreatment mechanism 400 includes a second connecting seat 410 and a flame gun 420. The flame gun 420 is located on the second connecting seat 410 and is capable of performing plasma flame treatment on the adhesive-coated surface of the profile frame 10.

[0054] Understandably, such as Figure 1 , Figure 2 , Figure 3 and Figure 5 As shown, there are two first drive components 310, one connected to the first connecting seat 210 and the other connected to the second connecting seat 410. The flame gun 420 is located on the second connecting seat 410. In use, the motion mechanism 300 drives the second connecting seat 410 to move, positioning the flame gun 420 above the profile frame 10. The pretreatment mechanism 400 uses the flame gun 420 to perform plasma spraying treatment on the adhesive surface of the profile frame 10, thereby cleaning the adhesive surface and ensuring its dryness and high surface finish, which is beneficial for improving the adhesive bonding effect. In practical applications, in addition to the above structure, the pretreatment mechanism 400 can also use methods such as blowing, sweeping, or wiping to clean the adhesive surface of the profile frame 10, which can be set according to actual usage needs.

[0055] In some embodiments, the pretreatment mechanism 400 further includes a first adjusting seat 430 and a second driver 440. The flame gun 420 is disposed on the first adjusting seat 430 and rotatably connected to the second connecting seat 410 through the first adjusting seat 430. The second driver 440 is connected to the first adjusting seat 430 and is used to drive the first adjusting seat 430 to rotate relative to the second connecting seat 410 to change the flame angle of the flame gun 420 relative to the adhesive surface of the profile frame 10.

[0056] Understandably, such as Figure 2 , Figure 3 and Figure 5 As shown, the pretreatment mechanism 400 also includes a second adjusting seat 450, a first adjusting seat 430 rotatably connected to the second adjusting seat 450, a flame gun 420 disposed on the first adjusting seat 430, and a second driver 440 disposed on the second adjusting seat 450 and connected to the first adjusting seat 430. By driving the first adjusting seat 430 to rotate relative to the second connecting seat 410, the flame angle of the flame gun 420 relative to the adhesive surface of the profile frame 10 can be changed, allowing for flame spraying at different tilt angles on the adhesive surface of the profile frame 10, adapting to the cleaning needs of different profile frame 10 and improving adaptability. The second adjusting seat 450 is slidably connected to the second connecting seat 410 and can move left and right relative to the second connecting seat 410 to adjust its position, thereby changing the position setting of the flame gun 420 and further improving adaptability.

[0057] Furthermore, such as Figure 2 , Figure 3 and Figure 4As shown, the glue application mechanism 200 also includes a third adjustment seat 260, which is slidably connected to the first connecting seat 210 and can move left and right relative to the first connecting seat 210 to adjust its position. The glue gun 220, auxiliary pump 230, first driver 240, etc. are all mounted on the third adjustment seat 260, thereby changing the position setting of the glue gun 220 and further improving adaptability.

[0058] In practical applications, the second driver 440 can be a cylinder, an electric push rod, or a motor, etc. The specific structures of the first adjusting seat 430, the second adjusting seat 450, and the third adjusting seat 260 can be set according to actual usage needs, and are not limited here.

[0059] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.

Claims

1. A glass door and window assembly adhesive application device, characterized in that, include: A base, wherein the base is provided with a placement platform for placing profile frame strips; The glue application mechanism includes a first connecting seat and a glue gun. The glue gun is located on the first connecting seat and has a glue outlet. The glue gun can be connected to an external glue supply device and output hot melt glue through the glue outlet. A motion mechanism is provided on the base and drivenly connected to the first connecting seat. The motion mechanism can drive the first connecting seat to move relative to the placement table, so as to drive the glue gun to move along the extension direction of the profile frame strip on the placement table.

2. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The glue application mechanism also includes an auxiliary pump and a first driver. The glue gun is connected to the auxiliary pump and can be connected to an external glue supply device through the auxiliary pump. The first driver is connected to the auxiliary pump and is used to drive the auxiliary pump to work.

3. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The glue gun is equipped with a first heating element.

4. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The adhesive application mechanism also includes a sensing element for sensing the profile frame strip on the placement platform.

5. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The motion mechanism includes a first drive assembly, a second drive assembly, a drive motor, a movable seat, and a rack. The movable seat is slidably connected to the base and moves in a direction parallel to the front-to-back direction. The rack is fixedly mounted on the base and extends along the moving direction of the movable seat. The drive motor is mounted on the movable seat and is driven by a gear. The gear and the rack mesh with each other through a helical tooth structure. The first drive assembly is drivenly connected to the first connecting seat and is used to drive the first connecting seat to move up and down. The second drive assembly is mounted on the movable seat and connected to the first drive assembly and is used to drive the first drive assembly to move left and right.

6. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The placement platform is equipped with a second electric heating element.

7. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, The base is provided with a sealing assembly for sealing the glue outlet, and the glue gun can be moved to cooperate with the sealing assembly.

8. The glass door and window assembly adhesive application equipment according to claim 1, characterized in that, It also includes a pretreatment mechanism, the motion mechanism being drivenly connected to the pretreatment mechanism, which can drive the pretreatment mechanism to move along the extension direction of the profile frame strip on the placement platform, the pretreatment mechanism being used to clean the adhesive-coated surface of the profile frame strip.

9. The glass door and window assembly adhesive application equipment according to claim 8, characterized in that, The pretreatment mechanism includes a second connecting seat and a flame gun. The flame gun is located on the second connecting seat and is capable of performing plasma flame treatment on the adhesive-coated surface of the profile frame.

10. The glass door and window assembly adhesive application equipment according to claim 9, characterized in that, The pretreatment mechanism further includes a first adjusting seat and a second driver. The flame gun is disposed on the first adjusting seat and rotatably connected to the second connecting seat through the first adjusting seat. The second driver is connected to the first adjusting seat and is used to drive the first adjusting seat to rotate relative to the second connecting seat, so as to change the flame angle of the flame gun relative to the adhesive surface of the profile frame.