Door and window physical performance detection equipment facilitating fastening of doors and windows

By coordinating the design of the support frame and physical testing components, the problems of operational complexity and inaccurate test results when testing doors and windows of different specifications with existing equipment are solved, and efficient and stable physical performance testing of doors and windows is achieved.

CN224341199UActive Publication Date: 2026-06-09YANTAI CONSTR ENG INSPECTION SERVICE CENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YANTAI CONSTR ENG INSPECTION SERVICE CENT CO LTD
Filing Date
2025-08-07
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing door and window testing equipment is complicated and costly to test doors and windows of different specifications because the connecting parts are not adjustable. In addition, the lack of effective clamping and limiting functions makes the door and window panels prone to displacement or tilting during the stamping test, which affects the stability and accuracy of the test results.

Method used

A door and window inspection device including a support frame and physical inspection components was designed. The device can flexibly adapt to doors and windows of different lengths and specifications by driving the stamping positioner with a hydraulic cylinder, and provides a stable clamping through the cooperation of the guide block, the stamping base and the top pressure spring to prevent the door and window panels from shifting or tilting during the inspection process.

Benefits of technology

It enables efficient and convenient testing of doors and windows of different specifications, improves the accuracy and reliability of test results, ensures precise control of door and window quality, and meets the construction industry's demand for safe and reliable door and window products.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224341199U_ABST
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Abstract

This utility model discloses a door and window physical performance testing device that facilitates the fastening of doors and windows in the field of door and window testing equipment technology. It includes a support frame, with physical testing components arranged on the top and sides of the support frame. Door and window panels are placed on one side of each physical testing component. The physical testing component includes a stamping testing part installed on the top of the support frame. Placement adjustment parts are arranged on both sides of the support frame. This door and window testing device, through the coordinated work of the support frame and the physical testing components (which include identically constructed stamping testing parts and placement adjustment parts), utilizes a hydraulic cylinder to adjust the distance between two sets of stamping positioners. This allows for flexible adaptation to door and window panels of different lengths and specifications. This flexible adjustment mechanism not only meets diverse testing needs and reduces time and labor costs associated with frequent parts replacement, but also achieves high efficiency and convenience in the testing process.
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Description

Technical Field

[0001] This utility model relates to the technical field of door and window testing equipment, and in particular to a door and window physical performance testing equipment that facilitates the fastening of doors and windows. Background Technology

[0002] Doors and windows are building components used to separate and connect indoor and outdoor spaces or different functional areas, serving multiple functions such as ventilation, lighting, sound insulation, heat preservation, and security. Doors are primarily used for the passage and separation of people or goods, while windows are used for lighting, ventilation, and providing a view. Doors and windows are made of a variety of materials, including wood, metal, PVC, aluminum alloy, and new composite materials, and their structural forms and opening methods are also diverse, such as casement, sliding, folding, and rotating. Doors and windows not only have a significant impact on the comfort and safety of a building in terms of function, but they are also an important part of the building's exterior design, directly affecting its aesthetics and overall style.

[0003] In the production of doors and windows, to ensure that the finished products have sufficient structural strength and shear resistance, their physical properties must be specifically tested. However, existing testing equipment lacks adjustability in the connectors used to hold the door and window panels, making it impossible to flexibly adjust according to the different lengths of the panels. This leads to frequent changes of equipment or accessories when testing different specifications of doors and windows, increasing operational complexity and testing costs. Furthermore, existing testing equipment fails to provide effective clamping and limiting functions, which may cause the door and window panels to shift or tilt during physical stamping tests. This not only reduces the stability of the test but also directly affects the accuracy and reliability of the test results.

[0004] Therefore, existing equipment has certain limitations in practical use and cannot meet the needs of efficient and accurate testing of the physical properties of doors and windows. Based on this, we propose a door and window physical performance testing device that facilitates the fastening of doors and windows. Utility Model Content

[0005] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of the present invention, to avoid obscuring the purpose of these documents, and such simplifications or omissions should not be construed as limiting the scope of the present invention.

[0006] Therefore, the purpose of this utility model is to provide a door and window physical performance testing device that facilitates the fastening of doors and windows. It can solve the problems of existing door and window testing equipment, which are complicated to operate and increase costs due to the non-adjustable connecting parts when testing doors and windows of different specifications, and the lack of effective clamping and limiting functions, which makes the door and window panels easy to shift or tilt during the stamping test, thus affecting the stability and accuracy of the test results.

[0007] To solve the above-mentioned technical problems, this utility model provides a door and window physical performance testing device that facilitates the fastening of doors and windows, and adopts the following technical solution: it includes a support plate frame, and physical testing components are respectively provided on the top and both sides of the support plate frame. Door and window panels are also placed on one side of the physical testing components. The physical testing components include a stamping testing component, which is installed on the top of the support plate frame. Placement adjustment components are respectively provided on both sides of the support plate frame.

[0008] Optionally, the stamping detection component has the same structure as the two sets of placement adjustment components. The stamping detection component includes a side plate, and a hydraulic cylinder is installed on the top of the side plate. The output end of the hydraulic cylinder is connected to a stamping positioner.

[0009] Optionally, the stamping positioner includes a guide block, and a stamping base is provided on one side of the guide block.

[0010] Optionally, guide protrusions are provided on both sides of the guide base block, a connecting shaft is installed at one end of the guide base block, and a limit end cap is provided at one end of the connecting shaft.

[0011] Optionally, the stamping base has a through hole that matches the structure of the connecting shaft. The through hole and the connecting shaft are connected by a plug-in fit. Two sets of circular baffles are slidably connected to the middle of the stamping base. Several sets of circumferentially arrayed top pressure springs are respectively arranged between the two sets of circular baffles and the inner side of the stamping base.

[0012] Optionally, guide grooves are provided in the middle and on both sides of the support plate frame. The guide grooves are matched with the structure of the guide base block. Sliding grooves are provided on both sides of the inner wall of the guide grooves. The sliding grooves and the guide protrusions are in sliding fit.

[0013] In summary, this utility model has at least one of the following beneficial effects:

[0014] 1. The door and window testing equipment designed in this solution works in concert with the support frame and physical testing components. The physical testing components include identically constructed stamping testing parts and placement adjustment parts. By using hydraulic cylinders to adjust the distance between two sets of stamping positioners, it can flexibly adapt to door and window panels of different lengths and specifications. This flexible adjustment mechanism can not only meet diverse testing needs and reduce the time and labor costs caused by frequent replacement of parts, but also achieve high efficiency and convenience in the testing process, greatly improving the overall efficiency of door and window testing. It can save valuable production time for door and window manufacturers, enabling them to respond to market demands more quickly.

[0015] 2. The door and window testing equipment designed in this scheme, through the precise coordination between the stamping base added to one side of the guide block, the connecting through hole, the circular baffle, and the top pressure spring, can provide a stable limiting and clamping effect for the door and window panels placed between the two sets of placement and adjustment components. When the stamping testing components perform stamping testing on the door and window panels, it can effectively prevent the door and window panels from shifting or tilting during the stress process. This design helps to improve the accuracy and reliability of the physical performance testing of door and window panels, ensuring that the test results truly reflect the physical performance of the doors and windows, and achieving precise control over the quality of doors and windows. This provides the construction industry with safer and more reliable door and window products, ensuring the quality of buildings and the safety of users. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the stamping positioner structure of this utility model;

[0019] Figure 3 This is a schematic diagram showing the disassembled stamping positioner of this utility model;

[0020] Figure 4 This is a schematic diagram of the circular baffle structure of this utility model;

[0021] Figure 5 This is a schematic diagram of the support plate frame structure of this utility model.

[0022] Explanation of reference numerals in the attached drawings: 1. Support plate frame; 2. Physical testing component; 3. Door and window panel; 4. Stamping testing component; 5. Placement adjustment component; 6. Side plate; 7. Hydraulic cylinder; 8. Stamping positioner; 9. Guide block; 10. Stamping base; 11. Guide protrusion; 12. Connecting shaft; 13. Limiting end cap; 14. Connecting through hole; 15. Circular baffle; 16. Top pressure spring; 17. Guide groove; 18. Slide groove. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] Example: Refer to Figures 1 to 5 This utility model provides an embodiment of a door and window physical performance testing device that facilitates the fastening of doors and windows. It includes a support frame 1, with physical testing components 2 respectively installed on the top and sides of the support frame 1. Door and window panels 3 are also placed on one side of the physical testing components 2. The physical testing components 2 include a stamping testing component 4, which is installed on the top of the support frame 1. Placement adjustment components 5 are respectively installed on both sides of the support frame 1. This door and window testing device enhances the applicability and flexibility of testing door and window panels 3, reduces operational complexity and testing costs, and ensures smooth and efficient testing processes through the coordinated work of various components. It provides a more reliable means for quality control in the door and window manufacturing industry, helps promote the improvement of door and window product quality, and meets the stringent performance requirements of the construction industry for doors and windows.

[0025] The stamping inspection component 4 has the same structure as the two sets of placement adjustment components 5. The stamping inspection component 4 includes a side plate 6, and a hydraulic cylinder 7 is installed on the top of the side plate 6. The output end of the hydraulic cylinder 7 is connected to a stamping positioner 8. The stamping inspection component 4 and the two sets of placement adjustment components 5 adopt the same structural design, that is, they are all composed of a side plate 6, a hydraulic cylinder 7 and a stamping positioner 8. The hydraulic cylinder 7 can drive the stamping positioner 8 to achieve precise stamping inspection and flexible position adjustment of the door and window panels 3, so as to achieve stable support and effective inspection of door and window panels 3 of different lengths and specifications, and ensure the accuracy and reliability of the doors and windows in the physical performance testing process. The stamping positioner 8 includes a guide base. Block 9, a stamping base 10 is provided on one side of the guide block 9. The stamping positioner 8 can be provided with a precise guide channel through the cooperation between the guide block 9 and the stamping base 10, so as to realize the smooth sliding of the positioner along the predetermined trajectory during the stamping process. Guide protrusions 11 are provided on both sides of the guide block 9. A connecting shaft 12 is installed at one end of the guide block 9. A limit end cap 13 is also provided at one end of the connecting shaft 12. By adding guide protrusions 11 on both sides of the guide block 9, the lateral movement of the stamping positioner 8 in the guide groove 17 can be precisely limited, so as to realize the smooth and non-offset sliding of the stamping positioner 8 during the vertical loading process.

[0026] A through hole 14 is provided inside the stamping base 10. The through hole 14 is structurally matched with the connecting shaft 12, and the through hole 14 and the connecting shaft 12 are plugged into each other. Two sets of circular baffles 15 are slidably connected to the middle of the stamping base 10. Several sets of circumferentially arrayed top pressure springs 16 are respectively arranged between the two sets of circular baffles 15 and the inner side of the stamping base 10. Through the sliding connection of the two sets of circular baffles 15 in the middle of the stamping base 10, and the elastic pre-tightening of the circumferentially arrayed top pressure springs 16 between the circular baffles 15 and the inner side of the stamping base 10, a uniform clamping force can be generated on the door and window panel 3, effectively suppressing the displacement and tilting of the door and window panel 3 during the stamping process, thereby improving the detection efficiency. To ensure stability and accuracy of results, guide grooves 17 are provided in the middle and on both sides of the support frame 1. The guide grooves 17 are structurally matched with the guide base block 9. Sliding grooves 18 are provided on both sides of the inner wall of the guide grooves 17. The sliding grooves 18 and the guide protrusions 11 are in sliding fit. Through the structural design of matching the guide grooves 17 with the guide base block 9 and the sliding fit between the sliding grooves 18 and the guide protrusions 11, when the stamping detection component 4 performs stamping detection on the door and window panel 3, the guide base block 9 can slide smoothly along the guide grooves 17, while the guide protrusions 11 slide in the sliding grooves 18. This ensures that the movement trajectory of the stamping positioner 8 is accurate and stable, and can prevent the door and window panel 3 from shifting or tilting during the force process.

[0027] Working Principle: The door and window testing equipment designed in this scheme mainly consists of a support frame 1 and a physical testing component 2. The physical testing component 2 includes a stamping testing component 4 and a placement adjustment component 5. The stamping testing component 4 is installed on the top of the support frame 1 and is mainly responsible for performing physical stamping testing on the door and window panels 3. The placement adjustment component 5 is set on both sides of the support frame 1 and is mainly responsible for supporting and adjusting the position of the door and window panels 3. The stamping testing component 4 and the placement adjustment component 5 have the same structure, both consisting of a side plate 6, a hydraulic cylinder 7, and a stamping positioner 8. The side plate 6 plays a role in fixing and supporting, and the hydraulic cylinder 7 serves as a power source to drive the stamping positioner 8 to move up and down, thereby realizing the stamping testing and position adjustment of the door and window panels 3.

[0028] The stamping positioner 8 in this solution is a key component of the entire equipment. Through matching with the guide groove 17 and guide base block 9 on the support plate frame 1, and the sliding engagement with the slide groove 18 and guide protrusion 11, the placement adjustment component 5 can flexibly adjust the distance between the two sets of stamping positioners 8. This design can not only meet the support requirements of door and window panels 3 of different lengths, but also quickly adjust the support spacing between the two sets of stamping positioners 8 according to the size and shape of different door and window panels 3 during the testing process. This ensures that the door and window panels 3 remain stable during the testing process and avoids displacement or tilting caused by uneven force. At the same time, by adjusting the distance between the two sets of stamping positioners 8, the stress point of the door and window panels 3 during stamping can also be changed, thereby more comprehensively monitoring the overall structural strength and shear resistance of the door and window panels 3.

[0029] In this design, the door and window testing equipment incorporates a stamping base 10 on one side of the guide block 9 to ensure that the door and window panel 3 does not shift or tilt during the stamping test when placed between two sets of placement adjustment components 5. The stamping base 10, through the cooperation of its internal connecting through-hole 14, circular baffle 15, and top pressure spring 16, effectively limits and clamps the door and window panel 3. During the stamping test, when the stamping testing component 4 applies pressure to the door and window panel 3, the stamping base 10 stably clamps the panel, preventing displacement or tilting. Furthermore, the circular baffle 15 and top pressure spring 16 inside the stamping base 10 effectively absorb and disperse the stamping pressure, preventing deformation of the door and window panel 3 due to uneven force, thereby further improving the reliability of the test results.

[0030] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A door and window physical performance testing device for easy fastening of doors and windows, including a support frame (1), characterized in that: Physical detection components (2) are respectively provided on the top and sides of the support plate frame (1). Door and window panels (3) are also placed on one side of the physical detection component (2). The physical detection component (2) includes a stamping detection component (4). The stamping detection component (4) is installed on the top of the support plate frame (1). Placement adjustment components (5) are respectively provided on both sides of the support plate frame (1).

2. The door and window physical performance testing equipment for easy fastening of doors and windows according to claim 1, characterized in that: The stamping detection component (4) has the same structure as the two sets of placement adjustment components (5). The stamping detection component (4) includes a side plate (6). A hydraulic cylinder (7) is installed on the top of the side plate (6). The output end of the hydraulic cylinder (7) is connected to a stamping positioner (8).

3. The door and window physical performance testing equipment for easy fastening of doors and windows according to claim 2, characterized in that: The stamping positioner (8) includes a guide block (9), and a stamping base (10) is provided on one side of the guide block (9).

4. The door and window physical performance testing equipment for easy fastening of doors and windows according to claim 3, characterized in that: The guide base block (9) has guide protrusions (11) on both sides, and a connecting shaft (12) is installed at one end of the guide base block (9). A limit end cap (13) is also provided at one end of the connecting shaft (12).

5. The door and window physical performance testing equipment for easy fastening of doors and windows according to claim 4, characterized in that: The stamping base (10) has a through hole (14) inside. The through hole (14) is structurally matched with the connecting shaft (12). The through hole (14) and the connecting shaft (12) are plugged in. Two sets of circular baffles (15) are slidably connected in the middle of the stamping base (10). Several sets of circumferential array top pressure springs (16) are respectively arranged between the two sets of circular baffles (15) and the inner side of the stamping base (10).

6. The door and window physical performance testing equipment according to claim 1, which facilitates the fastening of doors and windows, is characterized in that: The support plate frame (1) has guide grooves (17) in the middle and on both sides. The guide grooves (17) are matched with the structure of the guide block (9). The inner walls of the guide grooves (17) are respectively provided with sliding grooves (18). The sliding grooves (18) and the guide protrusions (11) are in sliding fit.