An electric vehicle canopy sliding window device
By using a double-grooved frame track and locking mechanism in the sliding window device of the electric vehicle canopy, the problems of friction and scratching between the window cover and the large transparent panel and the unstable molding of the rain cover are solved, achieving stable sliding and convenient installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 张磊
- Filing Date
- 2025-08-25
- Publication Date
- 2026-06-26
AI Technical Summary
Existing electric vehicle rain canopy sliding window devices are prone to causing scratches between the window cover and the large transparent panel when adjusting the window opening degree, and the rain cover is not formed stably, affecting the rider's vision and rain protection effect.
The sliding contact surfaces of the window cover and the large transparent panel are separated by a frame track with double grooves, and the rain cover is fixed by a locking mechanism and a preset slot track to ensure stable sliding and standard installation of the rain cover.
It effectively prevents scratches from friction between the window cover and the large transparent panel, maintains clear visibility while riding, and ensures stable molding and easy installation of the rain cover, thus improving the rain protection effect and user experience.
Smart Images

Figure CN224409486U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of two-wheeled electric vehicle canopies, and particularly relates to a sliding window device for electric vehicle canopies. Background Technology
[0002] The existing frameless design for sliding windows on electric vehicle canopies involves covering a large transparent panel on the side of the window with a cover plate wider than the window itself, which slides to adjust the window opening. The problem with this design is:
[0003] When adjusting the window opening according to weather conditions, the window cover slides up and down, rubbing against the large transparent panel covering the sides and bottom of the window, causing extensive scratches at the contact points. When the window cover slides down to close the window, it obstructs vision and affects riding. Furthermore, the rain shield above the window is made by folding up a large transparent panel left over from cutting the window. It needs to be shipped flat, but during customer installation, it is manually folded upwards along the crease line. Because the angle of manual folding is difficult to control, it may deform vertically during the folding process, changing the rain-shielding angle and affecting the rain-shielding effect. Summary of the Invention
[0004] The purpose of this utility model is to provide a sliding window device for electric vehicle canopies. By setting a frame track with double grooves to separate the sliding contact surface of the window cover and the large transparent plate, and a preset rain cover slot installation track, the problems of friction and scratching of the transparent plate and unstable rain cover forming are solved.
[0005] To achieve this objective, the technical solution adopted by this utility model is as follows:
[0006] A sliding window device for an electric vehicle canopy includes a large transparent panel and a window cover. A window is opened in the upper part of the large transparent panel, and a frame is fixedly provided on both sides of the window. A first groove is provided on the side of the frame facing outward of the window, and the first groove is engaged with the side edge of the window. A second groove is provided on the side of the frame facing inward of the window. The two sides of the window cover are respectively movably inserted into the second groove of the corresponding side frame, and can slide up and down along the second groove to adjust the opening degree of the window.
[0007] Furthermore, a locking mechanism is provided in the lower middle part of the frame, the locking mechanism being a latch or a locking assembly:
[0008] (a) A latch, comprising a fixed part and an elastic block, wherein the fixed part is fixedly connected to the frame; one end of the elastic block is connected to the fixed part, and the other end is a free end that can elastically swing relative to the fixed part; a through screw hole is provided at the connection between the fixed part and the elastic block, and an adjusting screw passes through the screw hole. Rotating the adjusting screw can drive the free end of the elastic block to press or release the side edge of the window cover plate to limit the sliding of the window cover plate;
[0009] (b) A locking assembly, including a locking hole on the side wall of the frame and a threaded rod passing through the locking hole, wherein the end of the threaded rod is provided with a threaded section that engages with the thread in the locking hole, and rotating the threaded rod can drive its end to press or release the window cover.
[0010] Furthermore, the upper and / or lower ends of the frame are provided with an installation structure, which is: screw holes provided at the upper and / or lower ends of the frame, through which screws are passed to fix the frame in the corresponding holes on the side of the window; or barbs provided at the upper and / or lower ends of the frame, which can be snapped into the corresponding hanging holes of the large transparent panel to fix the frame.
[0011] Furthermore, a slot is fixedly provided at the upper end of the frame, which is used to insert and fix the two sides of the rain cover and guide it to extend forward.
[0012] Furthermore, the base of the rain shield is configured to be folded and fit against the inner surface of the large transparent panel above the window. Several fasteners, such as clips or screws, are provided in the area where the folded edge fits against the large transparent panel to fix the base of the rain shield to the upper side of the window.
[0013] The beneficial effects of this utility model are:
[0014] This invention effectively prevents scratches caused by direct contact and friction between the window cover and the large transparent plate by setting a frame track with double grooves to separate the sliding contact surface, thus maintaining clear visibility while riding. At the same time, the rain cover can be quickly positioned and fixed at a standard angle during installation by using a pre-set slot track on the frame, solving the problems of unstable rain cover forming and angle deviation caused by manual folding, ensuring stable rain protection effect, stable overall structure, and convenient installation and use. Attached Figure Description
[0015] Figure 1 This is a front view structural diagram of the present invention;
[0016] Figure 2 This is a three-dimensional structural diagram of the frame of this utility model;
[0017] Figure 3This is a side view of the locking mechanism of this utility model.
[0018] Figure 4 This is a side view of the locking assembly of this utility model.
[0019] Figure 5 This is a front view schematic diagram of the frame of this utility model being fixed with screws;
[0020] Figure 6 This is an enlarged side view of the structure of the lower end of the frame of this utility model, which is fixed with barbs;
[0021] Figure 7 This is an enlarged structural schematic diagram of the snap-on rain cover of this utility model. Detailed Implementation
[0022] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments.
[0023] like Figure 1 As shown in Figure 2, a sliding window device for an electric vehicle canopy includes:
[0024] Large transparent panel 1: with a window 101 at the top;
[0025] Frame 2: Symmetrically arranged on both sides of window 101, integrally molded using injection molding process; a first groove 201 is provided on the side of frame 2 facing the outside of window 101, the first groove 201 is snapped onto the side edge of window 101; a second groove 202 is provided on the side of frame 2 facing the inside of window 101, the two sides of window cover plate 3 are respectively movably inserted into the second groove 202 of the corresponding side frame 2, and can slide up and down along the second groove 202 to adjust the opening degree of window 101; by setting frame 2 with double grooves to separate the sliding contact surface of window cover plate 3 and large transparent plate 1, the scratch problem caused by direct contact friction between the two can be effectively prevented. The groove-fitting frame reduces additional connecting parts, making the structure simple and easy to install.
[0026] Window cover 3: Made of transparent or semi-transparent sheet material, with a width matching that of window 101;
[0027] Rain cover 4: Located above window 101, extending forward and roughly perpendicular to the plane of the large transparent panel 1. The forward extension design of rain cover 4 can effectively block rainwater from entering window 101, achieving safe ventilation in rainy weather and ensuring clear visibility while driving.
[0028] A locking mechanism is provided in the lower middle part of the frame 2. The locking mechanism includes two implementation methods: a latch 5 and a locking component.
[0029] Locking Implementation Method
[0030] like Figure 3 As shown, a latch 5 is provided in the lower middle part of the frame 2. The latch 5 includes a fixing part 501 and an elastic pressure block 502. In this embodiment, the frame 2 is an injection-molded integral part, and the fixing part 501 is integrally formed or fixedly connected to one side of the frame 2. One end of the elastic pressure block 502 is connected to the fixing part 501, and the other end is a free end that can elastically swing relative to the fixing part 501. A through screw hole is provided at the connection between the fixing part 501 and the elastic pressure block 502. The adjusting screw 503 passes through the screw hole and is tightened at the end with a lock nut. Rotating the adjusting screw 503 can drive the free end of the elastic pressure block 502 to press or loosen the side of the window cover 3 to limit the sliding of the window cover 3, thereby fixing the opening degree of the window 101. For ease of operation, the head of the adjusting screw 503 is designed for easy manual operation, such as a hand screw with a handle or an eccentric wrench device with an eccentric wheel.
[0031] Locking component implementation method
[0032] like Figure 4 As shown, in another optional embodiment, the locking assembly includes a locking hole 701 located on the side wall of the frame 2 facing the interior of the awning, and a threaded rod 7 passing through the locking hole 701. The end of the threaded rod 7 has a threaded section that engages with the thread in the locking hole 701. Rotating the threaded rod 7 can drive its end to press or release the window cover 3. In actual operation, rotating the threaded rod 7 causes it to move axially along the locking hole 701, and its end enters the second groove 202 and presses against the side edge of the window cover 3, using friction to fix the window cover 3. Rotating the threaded rod 7 in the opposite direction causes its end to exit the second groove 202 axially along the locking hole 701, thus releasing the window cover 3. At this time, the window cover 3 can be slid back to adjust the opening degree of the window 101, making the operation convenient.
[0033] like Figure 5 As shown in Figure 6, the upper and / or lower ends of the frame are provided with mounting structures, the mounting structures including:
[0034] Screw 601 fixing: Screw holes are provided at the upper and lower ends of the frame 2, and corresponding holes are provided at the corresponding positions of the large transparent plate 1. The frame 2 is fixed to the large transparent plate 1 on the side of the window by screw 601, and the fixing is secure.
[0035] The barb 602 is fixed: a barb 602 is provided at the lower end of the frame 2, and a corresponding hanging hole is provided at the corresponding position of the large transparent plate 1. Press the frame 2 to make the barb 602 snap into the hanging hole for fixation. The upper end of the frame 2 uses the fixed width of the rain shield 4 to make the first groove 201 fit into the side edge of the window 101 and not detach from it to the left or right, thereby limiting and fixing it, making installation convenient.
[0036] like Figure 7 As shown, a slot 203 is fixedly provided at the upper end of the frame 2. The slot 203 is used to insert and fix the two sides of the rain shield 4 and guide it to extend forward. The slot 203 forms a preset installation track for the rain shield 4, so that the two sides of the rain shield 4 can be inserted into the track and fixed at a standard angle. The installation is convenient and avoids manual folding and deformation. At the same time, the rain shield 4 can also limit the frame 2 laterally, so that the first groove 201 of the frame 2 is stuck on the side edge of the window 101 and cannot be dislodged to the left or right.
[0037] To further secure the rain shield 4, the base of the rain shield 4 is designed with a folded edge 401 that fits against the inner surface of the large transparent panel 1 above the window 101. Two fasteners 402, which are clips or screws, are provided in the area where the folded edge 401 fits against the large transparent panel 1 to secure the base of the rain shield 4 to the window 101. When the fastener 402 is a clip, it is a plastic elastic clip with a base plate 4021 extending forward with two or more elastic legs 4022. The ends of the elastic legs 4022 are barbed. During installation, the folded edge 401 and the large transparent panel 1 have corresponding through mounting holes. Pressing the base plate 4021 of the elastic clip causes the elastic legs 4022 to elastically contract. After the elastic legs 4022 pass through the mounting holes, they elastically open again, and their barbed heads hook onto the edge of the holes to secure the rain shield 4.
[0038] Working principle
[0039] In practice, firstly, the frame 2 is inserted into the side edge of the window 101 through the first groove 201. Then, the lower end of the frame 2 is fixed to the large transparent plate 1 with screws 601 or barbs 602. The rain cover 4 is inserted into the slots 203 from the inside out of the window 101 on both sides, and its folded edge 401 is fixed with fasteners 402 (such as buckles or screws). At the same time, the width of the rain cover 4 can limit and fix the upper end of the frame 2. Then, the two sides of the window cover 3 are inserted from the lower end of the second groove 202. The window cover 3 is slid up and down to open the window to the appropriate position. When the latch 5 is used, rotating the adjusting screw 503 drives the elastic pressure block 502 to press the window cover 3 to lock its position. When the locking assembly is used, rotating the threaded rod 7 so that its end presses the window cover 3 to lock its position. After releasing the locking mechanism, the window cover 3 can be slid again to adjust the opening degree of the window 101. The window cover 3 is limited to slide up and down in the second groove 202, avoiding direct contact and friction with the large transparent panel 1, and preventing wear and scratches that would affect the visibility of the vehicle.
Claims
1. A sliding window device for an electric vehicle canopy, comprising a large transparent panel and a window cover, characterized in that: A window is provided in the upper part of the large transparent panel, and a frame is fixedly provided on both sides of the window; a first groove is provided on the side of the frame facing the outside of the window, and the first groove is engaged with the side edge of the window; a second groove is provided on the side of the frame facing the inside of the window, and the two sides of the window cover are respectively movably inserted into the second groove of the corresponding side frame, and can slide up and down along the second groove to adjust the opening degree of the window.
2. The sliding window device for an electric vehicle canopy according to claim 1, characterized in that: A locking mechanism is provided in the lower middle part of the frame, and the locking mechanism is any one of the following: (a) A latch, comprising a fixed part and an elastic block, wherein the fixed part is fixedly connected to the frame; one end of the elastic block is connected to the fixed part, and the other end is a free end that can elastically swing relative to the fixed part; a through screw hole is provided at the connection between the fixed part and the elastic block, and an adjusting screw passes through the screw hole. Rotating the adjusting screw can drive the free end of the elastic block to press or release the side edge of the window cover plate to limit the sliding of the window cover plate; or (b) A locking assembly, including a locking hole on the side wall of the frame and a threaded rod passing through the locking hole, wherein the end of the threaded rod is provided with a threaded section that engages with the thread in the locking hole, and rotating the threaded rod can drive its end to press or release the window cover.
3. The sliding window device for an electric vehicle canopy according to claim 1, characterized in that: The upper and / or lower ends of the frame are provided with an installation structure, which is: screw holes provided at the upper and / or lower ends of the frame, through which screws are passed to fix the frame in the corresponding holes on the side of the window; or barbs provided at the upper and / or lower ends of the frame, which can be snapped into the corresponding hanging holes of the large transparent panel to fix the frame.
4. The sliding window device for an electric vehicle canopy according to claim 1, characterized in that: The upper end of the frame is fixedly provided with a slot, which is used to insert and fix the two sides of the rain cover and guide it to extend forward.
5. The electric vehicle canopy sliding window device according to claim 4, characterized in that: The base of the rain shield is designed to be folded and fits against the inner surface of the large transparent panel above the window. Several fasteners, such as clips or screws, are provided in the area where the folded edge fits against the large transparent panel to fix the base of the rain shield to the top of the window.