A metal window frame adhesive injection device
By designing an automated metal window frame glue injection equipment, which utilizes conveying rollers, positioning and adjustment mechanisms to achieve automated positioning and all-round glue injection of the metal window frame, the problem of high labor costs in existing technologies is solved, and glue injection efficiency and flexibility are improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUAIBEI KEYUE DOOR IND CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-07-03
Smart Images

Figure CN224443555U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of metal window processing technology, and in particular to a metal window frame glue injection device. Background Technology
[0002] When processing metal partition windows, it is necessary to apply glue to their frames to ensure the stability of the frame after installation. Since the glue application port of the metal partition window frame is small and its position is not fixed, the glue application is usually carried out manually by hand with a glue gun and a conveyor roller to transport the metal partition window frame. This results in a high level of automation and efficiency in the glue application process, which requires a lot of manpower and time. To address this issue, we propose a glue application device for metal partition window frames to solve the above problems. Utility Model Content
[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a glue injection device for metal window frames.
[0004] The present invention solves its technical problem through the following technical solution: It includes a frame, a conveying roller at the top of the frame, a positioning mechanism on the outer side of the frame, and a moving mechanism at the bottom of the frame. The moving mechanism includes a mounting plate, which is bolted to the bottom of the frame. A drive motor B is bolted to one side of the mounting plate. A lead screw A is provided at the output end of the drive motor B. A sliding cross plate is provided on the outer side of the lead screw A. A mounting bracket is bolted to the top of the sliding cross plate. A limit mechanism is provided on one side of the mounting bracket. An adjustment mechanism is provided at the top of the mounting bracket, and a glue injection mechanism is provided at the bottom of the adjustment mechanism.
[0005] As a further improvement of this utility model, a control host is provided on one side of the frame.
[0006] As a further embodiment of this utility model: the positioning mechanism includes a mounting side plate, which is fixed to the side wall of the frame by bolts. A drive motor A is fixed to one side of the mounting side plate by bolts. A bidirectional lead screw is provided at the output end of the drive motor A. A pair of sliding seats A are provided on the outer side of the bidirectional lead screw. A positioning column is fixed to the top of each pair of sliding seats A.
[0007] As a further embodiment of this utility model: the limiting mechanism includes a mounting block, which is fixed to one side of the mounting bracket by bolts. An electric telescopic rod A is fixed to one side of the mounting block, and a limiting plate is fixed to one end of the electric telescopic rod A.
[0008] As a further embodiment of this utility model: the adjustment mechanism includes a mounting slide, which is fixed to the top of the mounting bracket by bolts. A drive motor C is fixed to one side of the mounting slide by bolts. A lead screw B is provided at the output end of the drive motor C. A sliding seat B is provided on the outer side of the lead screw B. An electric telescopic rod B is fixed to the top of the sliding seat B. A drive plate is fixed to the bottom of the electric telescopic rod B. A motor mounting bracket is fixed to the bottom of the drive plate. A rotary motor is fixed to the inner wall of the motor mounting bracket. A drive shaft is provided at the output end of the rotary motor. A drive bracket is fixed to the bottom of the drive shaft.
[0009] As a further embodiment of this utility model: the glue injection mechanism includes a connecting bracket, which is fixed to the bottom of the drive bracket by bolts. A glue injection pump is fixed to the inner wall of the connecting bracket. A feed pipe is fixed to the top of the glue injection pump. A discharge pipe is fixed to the bottom of the glue injection pump. A glue injection nozzle is fixed to the bottom of the discharge pipe.
[0010] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:
[0011] 1. The metal partition window frame is transported by conveyor rollers. The positioning mechanism and the limiting mechanism work together to perform automated positioning of the metal partition window frame. The moving mechanism and the adjusting mechanism work together to perform all-round position adjustment of the glue injection mechanism. The glue injection mechanism performs all-round glue injection operation on the metal partition window frame, replacing manual operation, reducing labor costs, and improving the automation and efficiency of the glue injection operation.
[0012] 2. By incorporating an adjustment mechanism, the drive motor C rotates the lead screw B, which in turn moves the glue injection mechanism laterally. The moving mechanism then moves the adjustment mechanism and the glue injection mechanism longitudinally. The electric telescopic rod B moves the drive plate up and down, which in turn moves the glue injection mechanism up and down. A rotary motor drives the drive shaft to rotate, which in turn rotates the drive bracket. This allows for adjustment of the glue injection direction, achieving omnidirectional adjustment of the glue injection mechanism. This adapts to the glue injection operation of complex metal window frames, ensuring flexibility in the glue injection process. Attached Figure Description
[0013] Figure 1 A schematic diagram of an isometric structure according to an embodiment of the present invention is shown;
[0014] Figure 2 A schematic diagram of an isometric sectional view of a structure according to an embodiment of the present invention is shown;
[0015] Figure 3 The present invention provides an embodiment of the present invention. Figure 2 Enlarged structural diagram of part A in the middle;
[0016] Figure 4 A schematic diagram of the front cross-sectional structure according to an embodiment of the present invention is shown;
[0017] Figure 5 The present invention provides an embodiment of the present invention. Figure 4 Enlarged structural diagram of section B in the middle;
[0018] Figure 6 The present invention provides an embodiment of the present invention. Figure 4 Enlarged structural diagram of section C in the middle;
[0019] Figure 7 A schematic diagram of the positioning mechanism structure provided according to an embodiment of the present utility model is shown;
[0020] Figure 8 A partial structural schematic diagram according to an embodiment of the present invention is shown.
[0021] Legend:
[0022] 100 Frame, 110 Control host, 120 Conveyor roller, 130 Metal isolation window frame body, 140 Glue injection port, 210 Mounting side plate, 220 Drive motor A, 221 Bidirectional lead screw, 230 Sliding seat A, 240 Positioning column, 310 Mounting plate, 320 Drive motor B, 321 Lead screw A, 330 Sliding cross plate, 340 Mounting bracket, 410 Mounting block, 420 Electric telescopic rod A, 430 Limiting plate, 510 Mounting slide, 520 Drive motor C, 521 Lead screw B, 530 Sliding seat B, 540 Electric telescopic rod B, 550 Drive plate, 560 Motor mounting bracket, 570 Rotary motor, 571 Drive shaft, 580 Drive bracket, 610 Connecting bracket, 620 Glue injection pump, 621 Feed pipe, 630 Discharge pipe, 640 Glue injection nozzle. Detailed Implementation
[0023] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or component 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.
[0024] In the description of this utility model, "multiple" means two or more, unless otherwise explicitly specified.
[0025] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installed," "equipped with," "sleeved / connected," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0026] Please see Figure 1-8 This utility model provides a technical solution: It includes a frame 100, a control host 110 on one side of the frame 100, a conveyor roller 120 on the top of the frame 100, a positioning mechanism on the outer side of the frame 100, and a moving mechanism at the bottom of the frame 100. The moving mechanism includes a mounting plate 310, a drive motor B320, a lead screw A321, and a sliding cross plate 330. A mounting bracket 340 is bolted to the top of the sliding cross plate 330. A limit mechanism is provided on one side of the mounting bracket 340, an adjustment mechanism is provided at the top of the mounting bracket 340, and a glue injection mechanism is provided at the bottom of the adjustment mechanism. The conveyor roller 120 transports the metal partition window frame, the positioning mechanism and the limit mechanism work together to automatically position the metal partition window frame, the moving mechanism and the adjustment mechanism work together to adjust the position of the glue injection mechanism in all directions, and the glue injection mechanism performs all-round glue injection on the metal partition window frame, replacing manual operation, reducing labor costs, and improving the automation and efficiency of the glue injection operation.
[0027] Specifically, the positioning mechanism includes a mounting side plate 210, which is fixed to the side wall of the frame 100 by bolts. A drive motor A220 is fixed to one side of the mounting side plate 210 by bolts. A bidirectional lead screw 221 is provided at the output end of the drive motor A220. A pair of sliding seats A230 are provided on the outer side of the bidirectional lead screw 221. A positioning post 240 is fixed to the top of each pair of sliding seats A230. With the positioning mechanism, the metal isolation window frame is moved to the positioning mechanism position by the conveyor roller 120. The drive motor A220 drives the bidirectional lead screw 221 to rotate. The rotation of the bidirectional lead screw 221 drives the pair of sliding seats A230 to move in opposite directions, thereby driving the positioning post 240 to move. The positioning post 240 positions and clamps the side of the metal isolation window frame, and works with the limiting mechanism to perform positioning operations on the metal isolation window frame, ensuring high-precision glue injection operation on the metal isolation window frame.
[0028] Specifically, the limiting mechanism includes a mounting block 410, which is fixed to one side of the mounting bracket 340 by bolts. An electric telescopic rod A420 is fixed to one side of the mounting block 410, and a limiting plate 430 is fixed to one end of the electric telescopic rod A420. By setting the limiting mechanism, the limiting plate 430 is moved by the electric telescopic rod A420 to one end of the metal isolation window frame. The metal isolation window frame is then moved by the conveying roller 120 and pressed against one side of the limiting plate 430, which can position the metal isolation window frame in the transportation direction. The positioning mechanism then clamps the side of the metal isolation window frame, enabling high-precision positioning of the metal isolation window frame.
[0029] Specifically, the adjustment mechanism includes a mounting groove 510, which is bolted to the top of the mounting bracket 340. A drive motor C520 is bolted to one side of the mounting groove 510. A lead screw B521 is provided at the output end of the drive motor C520. A sliding seat B530 is provided on the outer side of the lead screw B521. An electric telescopic rod B540 is fixed to the top of the sliding seat B530. A drive plate 550 is fixed to the bottom of the electric telescopic rod B540. A motor mounting bracket 560 is fixed to the bottom of the drive plate 550. A rotary motor 570 is fixed to the inner wall of the motor mounting bracket 560. A drive motor 570 is provided at the output end of the rotary motor 570. Shaft 571, with a drive bracket 580 fixed at its bottom; an adjustment mechanism is provided, and the drive motor C520 drives the lead screw B521 to rotate, thereby driving the glue injection mechanism to move laterally. The moving mechanism drives the adjustment mechanism and the glue injection mechanism to move longitudinally. The electric telescopic rod B540 drives the drive plate 550 to move up and down, thereby driving the glue injection mechanism to move up and down. The rotary motor 570 drives the drive shaft 571 to rotate, and the rotation of the drive shaft 571 drives the drive bracket 580 to rotate. This allows for adjustment of the glue injection direction of the glue injection mechanism, thereby achieving all-round adjustment of the glue injection mechanism. It can adapt to the glue injection operation of complex structure metal isolation window frames, ensuring the flexibility of the glue injection operation.
[0030] Specifically, the glue injection mechanism includes a connecting bracket 610, which is fixed to the bottom of the drive bracket 580 by bolts. A glue injection pump 620 is fixed to the inner wall of the connecting bracket 610. An inlet pipe 621 is fixed to the top of the glue injection pump 620, and an outlet pipe 630 is fixed to the bottom of the glue injection pump 620. A glue injection nozzle 640 is fixed to the bottom of the outlet pipe 630. By setting up the glue injection mechanism, the glue injection mechanism can be adjusted in all directions through the cooperation of the moving mechanism and the adjusting mechanism. External glue enters through the inlet pipe 621. The glue injection pump 620 starts and delivers the glue to the outlet pipe 630 and the glue injection nozzle 640. The glue is injected into the metal isolation window frame through the glue injection nozzle 640, realizing the automated glue injection operation of the metal isolation window frame.
[0031] Working principle: During use, the host 110 controls the operation of the equipment. The conveyor roller 120 moves the metal isolation window frame to the positioning mechanism. The drive motor A220 drives the bidirectional lead screw 221 to rotate. The rotation of the bidirectional lead screw 221 drives a pair of sliding seats A230 to move in opposite directions, thereby moving the positioning column 240. The positioning column 240 positions and clamps the side of the metal isolation window frame. The electric telescopic rod A420 drives the limiting plate 430 to move to one end of the metal isolation window frame. The conveyor roller 120 moves the metal isolation window frame to abut against the limiting plate 430, which can position the metal isolation window frame in the transport direction. The positioning mechanism clamps the side of the metal isolation window frame, which can perform high-precision positioning of the metal isolation window frame. The drive motor B320 drives the lead screw A321 to rotate. The rotation of 321 drives the sliding plate 330 to move longitudinally, which in turn drives the glue injection mechanism to move longitudinally. The drive motor C520 drives the lead screw B521 to rotate, and the rotation of the lead screw B521 drives the sliding seat B530 to move laterally, which in turn drives the glue injection mechanism to move laterally. The moving mechanism drives the adjusting mechanism and the glue injection mechanism to move longitudinally. The electric telescopic rod B540 drives the drive plate 550 to move up and down, which in turn drives the glue injection mechanism to move up and down. The rotary motor 570 drives the drive shaft 571 to rotate, and the rotation of the drive shaft 571 drives the drive bracket 580 to rotate, which can adjust the glue injection direction of the glue injection mechanism, thereby realizing the all-round adjustment of the glue injection mechanism. External glue enters through the feed pipe 621, the glue injection pump 620 is started, and the glue injection pump 620 delivers the glue to the discharge pipe 630 and the glue injection nozzle 640. The glue is injected into the metal isolation window frame through the glue injection nozzle 640, realizing the automated glue injection operation of the metal isolation window frame.
[0032] Although the present invention discloses embodiments and accompanying drawings, those skilled in the art will understand that various substitutions, variations and modifications are possible without departing from the spirit and scope of the present invention and the appended claims. Therefore, the scope of the present invention is not limited to the contents disclosed in the embodiments and accompanying drawings.
Claims
1. A metal isolated window frame glue injection equipment, characterized in that, The system includes a frame (100), a conveyor roller (120) on the top of the frame (100), a positioning mechanism on the outer side of the frame (100), and a moving mechanism at the bottom of the frame (100). The moving mechanism includes a mounting plate (310), which is fixed to the bottom of the frame (100) by bolts. A drive motor B (320) is fixed to one side of the mounting plate (310) by bolts. A lead screw A (321) is provided at the output end of the drive motor B (320). A sliding cross plate (330) is provided on the outer side of the lead screw A (321). A mounting bracket (340) is fixed to the top of the sliding cross plate (330) by bolts. A limit mechanism is provided on one side of the mounting bracket (340). An adjustment mechanism is provided at the top of the mounting bracket (340), and an adhesive injection mechanism is provided at the bottom of the adjustment mechanism.
2. The metal isolated window frame glue injection equipment according to claim 1, characterized in that, A control host (110) is provided on one side of the rack (100).
3. The metal isolated window frame glue injection equipment according to claim 1, characterized in that, The positioning mechanism includes a mounting side plate (210), which is fixed to the side wall of the frame (100) by bolts. A drive motor A (220) is fixed to one side of the mounting side plate (210) by bolts. A bidirectional lead screw (221) is provided at the output end of the drive motor A (220). A pair of sliding seats A (230) are provided on the outside of the bidirectional lead screw (221). A positioning post (240) is fixed to the top of each pair of sliding seats A (230).
4. The metal isolated window frame glue injection equipment according to claim 1, characterized in that, The limiting mechanism includes a mounting block (410), which is fixed to one side of the mounting bracket (340) by bolts. An electric telescopic rod A (420) is fixed to one side of the mounting block (410), and a limiting plate (430) is fixed to one end of the electric telescopic rod A (420).
5. The metal isolated window frame glue injection equipment according to claim 1, characterized in that, The adjustment mechanism includes a mounting slide (510), which is fixed to the top of the mounting bracket (340) by bolts. A drive motor C (520) is fixed to one side of the mounting slide (510) by bolts. A lead screw B (521) is provided at the output end of the drive motor C (520). A sliding seat B (530) is provided on the outer side of the lead screw B (521). An electric telescopic rod B (540) is fixed to the top of the sliding seat B (530). A drive plate (550) is fixed to the bottom of the electric telescopic rod B (540). A motor mounting bracket (560) is fixed to the bottom of the drive plate (550). A rotary motor (570) is fixed to the inner wall of the motor mounting bracket (560). A drive shaft (571) is provided at the output end of the rotary motor (570). A drive bracket (580) is fixed to the bottom of the drive shaft (571).
6. The metal isolated window frame glue injection equipment according to claim 5, characterized in that, The glue injection mechanism includes a connecting bracket (610), which is fixed to the bottom of the drive bracket (580) by bolts. A glue injection pump (620) is fixed to the inner wall of the connecting bracket (610). A feed pipe (621) is fixed to the top of the glue injection pump (620), and a discharge pipe (630) is fixed to the bottom of the glue injection pump (620). A glue injection nozzle (640) is fixed to the bottom of the discharge pipe (630).