A glazing inspection apparatus
By combining the first bracket and the sliding-mounted second bracket, along with the design of the sliding plate and locking bolts, the problems of difficult glass window installation and cumbersome replacement are solved, achieving stable fixing and sealing of the glass window, and improving the convenience and applicability of the testing device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO HEBANG TESTING RES CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-19
AI Technical Summary
In existing tests of the thermal insulation performance of glass windows, the installation of glass windows is difficult and the replacement is cumbersome, which affects the accuracy and efficiency of the test results.
The fixed bracket consists of a first bracket and a sliding second bracket. The first bracket positions the glass window, and the sliding plate and locking bolts are used to achieve stable fixing and sealing of the glass window. Combined with the cooperation of the limiting block and the limiting slide groove, it can adapt to glass windows of different sizes.
It improves the installation stability and disassembly efficiency of glass windows, enhances the accuracy of test results, and increases the flexibility and adaptability of the device.
Smart Images

Figure CN224383183U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of glass window testing devices, and in particular to a glass window thermal insulation performance testing device. Background Technology
[0002] Testing the thermal insulation performance of glass windows is a crucial aspect of building energy conservation, as the test results directly impact a building's energy efficiency and environmental comfort. In modern buildings, the widespread use of high-performance glass windows significantly enhances thermal insulation capabilities, thereby reducing energy consumption and improving indoor environmental quality.
[0003] Currently, the common method for testing the thermal insulation performance of glass windows is to place the window within a rectangular groove and secure it with foam or a frame. To ensure accuracy, adhesive is applied between the foam and the edges of the rectangular groove to prevent external environmental factors from affecting the test results. Alternatively, some methods involve manually adjusting clamps to secure the window and using additional sealing materials to achieve a tight seal. However, these methods have limitations. For example, the window is typically directly snapped into the frame and then sealed with adhesive, leading to difficulties in installation and cumbersome replacement processes. Utility Model Content
[0004] To improve the installation stability and disassembly efficiency of glass windows, this application provides a glass window testing device.
[0005] The glass window inspection device provided in this application adopts the following technical solution:
[0006] A glass window inspection device includes an inspection frame and a fixed bracket disposed within the inspection frame for mounting a glass window. The fixed bracket includes a first bracket fixed to the inspection frame and a second bracket slidably mounted on the inspection frame. The glass window is fixed to the inspection frame via the fixed bracket.
[0007] By adopting the above technical solution, including a detection frame and a fixed bracket, the fixed bracket consists of a first bracket and a slidingly installed second bracket. The glass window is positioned on the first bracket, and then the second bracket is moved so that the glass window is fixed between the two brackets. This solution effectively solves the problems of difficult glass window installation and cumbersome replacement in the prior art, improves the flexibility and ease of operation of the device, and ensures the stability of the glass window during the detection process, thereby improving the accuracy of the detection results.
[0008] Optionally, the first bracket is provided with a placement groove for placing the glass window.
[0009] By adopting the above technical solutions, a stable placement space can be provided for glass windows, preventing them from shifting during installation, thereby improving installation accuracy and convenience.
[0010] Optionally, the first bracket has an extension plate on its side wall that abuts against the inner wall of the detection frame. The extension plate has a fixing through hole that penetrates both end faces, and a fixing bolt is provided in the fixing through hole. The detection frame has a plurality of fixing screw holes that cooperate with the fixing bolt at intervals.
[0011] By adopting the above technical solution, fixing through holes are opened on the extension plate and connected to the fixing screw holes on the detection frame with fixing bolts, the first bracket can be stably fixed in the detection frame, improving the reliability of the overall structure. At the same time, this fixing method is simple to operate, easy to install and disassemble, and improves the ease of use of the glass window detection device.
[0012] Optionally, the detection frame is provided with a positioning groove for positioning the first bracket, and the detection frame is slidably installed in the positioning groove with an abutment block for abutting against the side wall of the first bracket, the abutment block having an abutment through hole corresponding to the fixing screw hole.
[0013] By adopting the above technical solution, the positioning groove provides a precise positioning area for the first support, ensuring its more stable and accurate arrangement within the detection frame. The sliding installation design of the abutment block allows for flexible position adjustment to accommodate first supports of different sizes, and achieves a secure connection through the abutment through-holes corresponding to the fixing screw holes, thereby improving the overall structural reliability and assembly efficiency.
[0014] Optionally, the bottom of the detection frame is provided with a sliding groove for the second support to move, the bottom side wall of the second support is provided with a limit block, and the side wall of the sliding groove is provided with a limiting groove for the limit block to be arranged.
[0015] By adopting the above technical solution, the sliding groove allows the second support to move in a predetermined direction within the detection frame, thereby achieving adaptive adjustment for glass windows of different sizes and improving the applicability of the device. The cooperation between the limiting block and the limiting groove effectively restricts the movement path of the second support, reducing the probability of deviation or shaking.
[0016] Optionally, the second bracket is provided with an installation groove for mounting the limiting block, and a limiting spring is provided on the inner wall of the installation groove. One end of the limiting spring is fixed to the inner wall of the installation groove, and the other end is fixed to the limiting block. The side wall of the limiting block is provided with a guide slope for guiding insertion into the sliding groove.
[0017] By adopting the above technical solution, the limiting block on the second bracket can achieve elastic positioning in the sliding groove through the cooperation of the mounting groove and the limiting spring. The design of the guide slope allows the limiting block to be smoothly inserted into the sliding groove, simplifying the installation operation.
[0018] Optionally, the detection frame is provided with an unlocking through hole that connects to the limiting slide groove.
[0019] By adopting the above technical solution, the setting of the unlocking through hole allows the limiting slide to be connected to the outside, which makes it convenient for the operator to operate the limiting block through the unlocking through hole when needed, thereby realizing the quick unlocking of the second bracket.
[0020] Optionally, the bottom of the second bracket is provided with a pulley that abuts against the bottom wall of the limiting groove.
[0021] By adopting the above technical solution, the pulley component significantly reduces the frictional resistance of the second bracket when it moves within the limiting groove, making the adjustment of the second bracket smoother and less strenuous.
[0022] Optionally, the first bracket has locking screw holes, the second bracket has locking bolts corresponding to the locking screw holes, and a sliding plate is slidably installed on the second bracket toward the side of the first bracket. The sliding plate is provided with a sealing gasket for abutting against the glass window. The second bracket has a horizontal sliding groove for the sliding plate to slide, and the horizontal sliding groove is provided with staggered through holes corresponding to the bolt heads of the locking bolts.
[0023] By adopting the above technical solution, the sliding plate can slide in the horizontal groove, so that the sealing gasket can abut against the glass window, thereby achieving the fixation and sealing of the glass window. Compared with the traditional solution of directly inserting it into the frame, the sealing performance is more ideal. The staggered through holes can make the locking bolts push the sliding plate to press against the glass window, improving the sealing performance.
[0024] In summary, this application includes at least one of the following beneficial technical effects:
[0025] 1. The fixed bracket of this application consists of a first bracket and a sliding second bracket. The glass window is positioned on the first bracket, and then the second bracket is moved so that the glass window is fixed between the two brackets. This solution effectively solves the problems of difficult glass window installation and cumbersome replacement in the prior art.
[0026] 2. The sliding groove allows the second support to move along a predetermined direction within the detection frame, thus enabling adaptive adjustment for glass windows of different sizes and improving the applicability of the device. The cooperation between the limiting block and the limiting groove effectively restricts the movement path of the second support;
[0027] 3. This application utilizes a sliding plate and locking bolts. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application.
[0029] Figure 2 This is a cross-sectional schematic diagram of the first bracket in the positioning sinkhole according to an embodiment of this application.
[0030] Figure 3 This is a cross-sectional schematic diagram of the second bracket in the sliding groove according to an embodiment of this application.
[0031] Figure 4 This is a cross-sectional schematic diagram of the sliding plate and locking bolt according to an embodiment of this application.
[0032] Explanation of reference numerals in the attached drawings: 1. Detection frame; 11. Positioning groove; 12. Abutment block; 121. Abutment through hole; 13. Fixing screw hole; 14. Sliding groove; 141. Limiting groove; 15. Unlocking through hole; 2. Fixing bracket; 21. First bracket; 211. Extension plate; 2111. Fixing through hole; 2112. Fixing bolt; 212. Placement groove; 213. Locking screw hole; 22. Second bracket; 221. Mounting groove; 222. Limiting spring; 223. Ball-head plunger; 224. Pulling strip hole; 225. Locking bolt; 226. Sliding plate; 2261. Sliding extension; 227. Sealing gasket; 228. Horizontal groove; 229. Interlaced through holes; 23. Limiting block; 231. Guide slope; 232. Plunger locking hole; 24. Pulley. Detailed Implementation
[0033] The following is in conjunction with the appendix Figure 1-4 This application will be described in further detail.
[0034] This application discloses a glass window inspection device.
[0035] Reference Figure 1 A glass window testing device includes a testing frame 1 and a fixing bracket 2 disposed within the testing frame 1. The testing frame 1 is generally rectangular and has through holes extending through both end faces. The glass window is fixed to the testing frame 1 by the fixing bracket 2. The gap between the fixing bracket 2 and the inner wall of the testing frame 1 is then filled with a sponge for sealing. Afterward, sealant is used to seal and fix the edges of the sponge. Heating or cooling is applied to one side of the glass window to test the heat insulation performance of the other side of the glass window.
[0036] Reference Figure 1 and Figure 2The fixed bracket 2 includes a first bracket 21 fixed to the detection frame 1 and a second bracket 22 slidably mounted on the detection frame 1. The first bracket 21 is designed according to the size of the glass window to be tested, and its adjacent sides abut against the two adjacent inner walls of the detection frame 1. The inner wall of the detection frame 1 is provided with a positioning groove 11 for positioning and installing the first bracket 21. The first bracket 21 is positioned and inserted into the positioning groove 11 to ensure the stability of the first bracket 21.
[0037] The detection frame 1 is slidably installed within the positioning groove 11 with an abutment block 12 for abutting against the side wall of the first bracket 21. The abutment block 12 has a T-shaped cross-section. An extension plate 211 for abutting against the inner wall of the detection frame 1 is integrally provided on the outer side wall of the first bracket 21, and the extension plate 211 is attached to the top of the positioning groove 11.
[0038] The extension plate 211 has a through hole 2111 extending through both end faces, and a fixing bolt 2112 is provided at the through hole 2111. The detection frame 1 has a fixing screw hole 13 in the inner wall of the positioning groove 11, which mates with the fixing bolt 2112. The fixing screw holes 13 are evenly spaced along the length of the positioning groove 11 to accommodate fixing brackets 2 of different sizes. The abutment block 12 has an abutment through hole 121 corresponding to the fixing screw hole 13, so that the fixing bolt 2112 can pass through the fixing through hole 2111, abutment through hole 121, and then threadedly engage with the fixing screw hole 13, thereby achieving the fixed connection of the first bracket 21 to the detection frame 1.
[0039] The first bracket 21 has a through hole extending through both sides, and the first bracket 21 has an opening on one side of the through hole for placement groove 212, which is used for initial positioning during glass window installation.
[0040] Reference Figure 2 and Figure 3 The inner bottom wall of the detection frame 1 is provided with a sliding groove 14 for the movement of the second support 22, and a limiting block 23 is provided on one side of the bottom of the second support 22, which is arranged in the sliding groove 14. The inner side wall of the sliding groove 14 has a limiting groove 141 that slides and engages with the limiting block 23. The second support 22 has a mounting groove 221 for the arrangement of the limiting block 23, and a limiting spring 222 is provided in the mounting groove 221. One end of the limiting spring 222 is connected to the limiting block 23, and the other end is connected to the inner bottom wall of the mounting groove 221. The limiting block 23 is also provided with a guide slope 231 on the side facing the limiting groove to improve the connection efficiency between the second support 22 and the detection frame 1. In order to improve the movement efficiency of the second support 22, two sets of pulleys 24 are also provided at intervals at the bottom of the second support 22.
[0041] An unlocking through hole 15 communicating with the limiting slide groove 141 is provided on the outer wall of the detection frame 1, which is used by the operator to push the limiting block 23 to lock the second bracket 22 and the detection frame 1. The second bracket 22 is provided with a ball-head plunger 223 on the inner top wall of the mounting groove 221. The ball-head plunger 223 includes a plunger housing, a plunger spring, and a plunger ball head. The plunger housing and the second bracket 22 are fixedly inserted together. The two ends of the plunger spring are respectively connected to the plunger ball head and the inner wall of the plunger housing. The sliding direction of the plunger ball head is perpendicular to the sliding direction of the limiting block 23.
[0042] The top of the limiting block 23 is provided with a plunger locking hole 232 that cooperates with the plunger ball head. When the limiting block 23 is inserted downward into the limiting slide groove 141, the limiting block 23 will slide a certain distance toward the plunger locking hole 232, but there is still a distance between the plunger locking hole 232 and the plunger ball head, so that the limiting block 23 will not self-lock.
[0043] The bottom of the second bracket 22 has a pull-out slot 224, which connects to the bottom wall of the mounting groove 221. The extension direction of the pull-out slot 224 is parallel to the sliding groove 14. Pulling the limiting block 23 disengages the plunger ball head from the plunger locking hole 232. The bottom of the limiting block 23 has a pull groove corresponding to the pull-out slot 224.
[0044] Reference Figure 1 and Figure 4 The first bracket 21 has several locking screw holes 213, and the second bracket 22 has locking bolts 225 corresponding to the locking screw holes 213 one by one. A sliding plate 226 is slidably mounted on the side of the second bracket 22 facing the first bracket 21. A sealing gasket 227 for abutting against the glass window is provided on the sliding plate 226. The second bracket 22 has a horizontal sliding groove 228 for the sliding plate 226 to slide along, and the horizontal sliding groove 228 has staggered through holes 229 penetrating the side wall of the second bracket 22. The screw head of the locking bolt 225 corresponds to the staggered through holes 229, and the sliding plate 226 has a sliding extension 2261 arranged in the staggered through holes 229 and pushed by the locking bolt 225, so that when the locking bolt 225 is tightened, it can drive the sliding plate 226 to move towards the glass window. This allows the locking bolt 225 to simultaneously achieve the functions of locking and sealing.
[0045] The implementation principle of this embodiment is as follows: the first bracket 21 and the second bracket 22 are respectively installed in the positioning groove 11 and the sliding groove 14. Then, the glass window is positioned in the placement groove 212 of the first bracket 21. The second bracket 22 is moved so that the second bracket 22 corresponds to the first bracket 21. The first bracket 21 and the second bracket 22 are locked by the locking bolt 225. At the same time, the sealing gasket 227 is pressed against the glass window under the action of the locking bolt 225.
[0046] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A glass window inspection device, characterized in that, The device includes a detection frame (1) and a fixed bracket (2) disposed within the detection frame (1) for installing a glass window. The fixed bracket (2) includes a first bracket (21) fixed to the detection frame (1) and a second bracket (22) slidably installed on the detection frame (1). The glass window is fixed to the detection frame (1) by the fixed bracket (2).
2. The glass window inspection device according to claim 1, characterized in that, The first bracket (21) has a placement groove (212) for placing the glass window.
3. The glass window inspection device according to claim 1, characterized in that, The first bracket (21) has an extension plate (211) on its side wall that abuts against the inner wall of the detection frame (1). The extension plate (211) has a fixing through hole (2111) that penetrates both end faces. A fixing bolt (2112) is provided in the fixing through hole (2111). The detection frame (1) has a plurality of fixing screw holes (13) that cooperate with the fixing bolt (2112) at intervals.
4. The glass window inspection device according to claim 3, characterized in that, The detection frame (1) is provided with a positioning groove (11) for positioning the first bracket (21). The detection frame (1) is slidably installed in the positioning groove (11) with an abutment block (12) for abutting the side wall of the first bracket (21). The abutment block (12) has an abutment through hole (121) corresponding to the fixing screw hole (13).
5. A glass window inspection device according to claim 4, characterized in that, The bottom of the detection frame (1) is provided with a sliding groove (14) for the second support (22) to move. The bottom side wall of the second support (22) is provided with a limiting block (23). The side wall of the sliding groove (14) is provided with a limiting groove (141) for the limiting block (23) to be arranged.
6. A glass window inspection device according to claim 5, characterized in that, The second bracket (22) is provided with an installation groove (221) for mounting the limiting block (23), and a limiting spring (222) is provided on the inner wall of the installation groove (221). One end of the limiting spring (222) is fixed to the inner wall of the installation groove (221), and the other end is fixed to the limiting block (23). The side wall of the limiting block (23) is provided with a guide slope (231) for guiding insertion into the sliding groove (14).
7. A glass window inspection device according to claim 6, characterized in that, The detection frame (1) has an unlocking through hole (15) that connects to the limiting slide groove (141).
8. A glass window inspection device according to claim 6, characterized in that, The bottom of the second bracket (22) is provided with a pulley that abuts against the bottom wall of the limiting slide groove (141).
9. A glass window inspection device according to claim 1, characterized in that, The first bracket (21) has a locking screw hole (213), and the second bracket (22) has a locking bolt (225) corresponding to the locking screw hole (213). The second bracket (22) has a sliding plate (226) slidably mounted on the side facing the first bracket (21). The sliding plate (226) is provided with a sealing gasket (227) for abutting against the glass window. The second bracket (22) has a horizontal slide groove (228) for the sliding plate (226) to slide. The horizontal slide groove (228) is provided with staggered through holes (229) corresponding to the bolt head of the locking bolt (225). The sliding plate (226) has a sliding extension (2261) arranged in the staggered through holes (229) and pushed by the locking bolt (225).