Survival goggles suitable for wilderness survival
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUPER VISION OPTICS (SHANGHAI) CO LTD
- Filing Date
- 2025-09-16
- Publication Date
- 2026-07-03
Smart Images

Figure CN224457172U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of eye technology, and in particular to a survival goggles suitable for wilderness survival. Background Technology
[0002] Eyeglasses are an indispensable part of modern people's daily lives and work, helping them to read, work, and engage in other activities without barriers. When people go on picnics or encounter situations in the wild where clean water is unavailable, they desire a portable device that can purify water and provide timely assistance when clean water is needed, preventing illness from contaminated water. Furthermore, during wilderness survival, if members become separated from their group, a portable tool for signaling for help is essential. Therefore, survival eyeglasses suitable for wilderness survival are needed. Utility Model Content
[0003] To address the aforementioned problems, this invention proposes a survival goggles suitable for wilderness survival, which can more accurately solve the problems described above.
[0004] This utility model is achieved through the following technical solution:
[0005] This utility model proposes a survival goggles suitable for wilderness survival, including temples. The temples are hollow support bodies, and a water suction nozzle is connected to the upper end of the temple. A temple connector is connected to the upper end of the water suction nozzle. A carbon fiber filter is provided in the inner cavity of the temple and close to the bottom of the water suction nozzle. High-quality double-layer PP cotton is provided in the inner cavity of the temple and close to the bottom of the carbon fiber filter. A hollow fiber ultrafiltration membrane is provided in the inner cavity of the temple and close to the lower part of the high-quality double-layer PP cotton. A sewage inlet is opened at the bottom of the temple, and a distress whistle is connected to the bottom of the temple.
[0006] Furthermore, the upper end of the temple is provided with an internal thread, and the bottom of the water suction nozzle is provided with an external thread, and the temple and the water suction nozzle are connected by threads.
[0007] Furthermore, the upper end of the water suction nozzle is provided with an internal thread, the bottom of the temple connector is provided with an external thread, and the water suction nozzle and the temple connector are connected by threads.
[0008] Furthermore, the distress whistle has two whistle chambers inside, and each whistle chamber has a whistle opening.
[0009] Furthermore, the bottom end of the temple is connected to a pair of long plungers, which are inserted into the two whistle chambers of the distress whistle and extend to the opening of the whistle port.
[0010] The beneficial effects of this utility model are:
[0011] 1. This utility model allows for the disassembly of the temple and temple connector, removing the temple and drawing in sewage through the sewage inlet at the bottom of the temple. The sewage is then filtered layer by layer by the hollow fiber ultrafiltration membrane, high-quality double-layer PP cotton, and carbon fiber filter element inside the temple. Finally, pure water flows out through the opening in the mouth, which helps people drink water in the wild and is easy to carry.
[0012] 2. When using this utility model, by pulling the distress whistle, the long plunger is released from the seal of the whistle opening. Gas is blown into the bottom of the distress whistle through the mouth, and the vibrating airflow flows out from the whistle opening of the whistle cavity, causing the air inside the distress whistle to vibrate and emit a sound, which can send a rescue signal to the outside world, thus playing the role of sending a distress signal to people surviving in the wild. Attached Figure Description
[0013] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0014] Figure 2 This is a cross-sectional view of the structure of this utility model;
[0015] Figure 3 This is a schematic diagram of the connection structure between the telescope temple and the distress whistle in this utility model.
[0016] In the diagram: 1. Temple; 101. Water suction nozzle; 102. Temple connector; 103. Hollow fiber ultrafiltration membrane; 104. High-quality double-layer PP cotton; 105. Carbon fiber filter element; 106. Wastewater inlet; 107. Long plunger; 108. Distress whistle; 1081. Whistle chamber; 1082. Whistle mouth. Detailed Implementation
[0017] 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. Example
[0018] Survival glasses suitable for outdoor survival include temples 1, which are hollow support bodies. A water suction nozzle 101 is connected to the upper end of the temple 1. A temple connector 102 is connected to the upper port of the water suction nozzle 101 for connecting to the frame. A carbon fiber filter element 105 is provided in the inner cavity of the temple 1 and close to the bottom of the water suction nozzle 101. A high-quality double-layer PP cotton 104 is provided in the inner cavity of the temple 1 and close to the bottom of the carbon fiber filter element 105. A hollow fiber ultrafiltration membrane 103 is provided in the inner cavity of the temple 1 and close to the bottom of the high-quality double-layer PP cotton 104. A sewage inlet 106 is provided at the bottom of the temple 1. In use, the temple 1 is removed by disassembling the temple 1 and the temple connector 102. Sewage is drawn in through the sewage inlet 106 at the bottom of the temple 1. The sewage is filtered layer by layer by the hollow fiber ultrafiltration membrane 103, high-quality double-layer PP cotton 104 and carbon fiber filter element 105 in the inner cavity of the temple 1. Finally, pure water flows out through the opening in the water suction nozzle 101.
[0019] The upper end of the temple 1 is provided with an internal thread, and the bottom of the water suction nozzle 101 is provided with an external thread. The temple 1 and the water suction nozzle 101 are connected by threads. The upper end of the water suction nozzle 101 is provided with an internal thread, and the bottom of the temple connector 102 is provided with an external thread. The water suction nozzle 101 and the temple connector 102 are connected by threads.
[0020] The technical solutions described in the above embodiments of this application have at least the following technical effects or advantages: This utility model disassembles the temple 1 and the temple connector 102, removes the temple 1, and draws in sewage through the sewage inlet 106 at the bottom of the temple 1. The sewage is filtered layer by layer by the hollow fiber ultrafiltration membrane 103, high-quality double-layer PP cotton 104 and carbon fiber filter element 105 in the inner cavity of the temple 1. Finally, pure water flows out through the opening in the water suction nozzle 101, which helps people drink water in the wild and is easy to carry. Example
[0021] A distress whistle 108 is connected to the bottom of the temple 1. The distress whistle 108 has two whistle chambers 1081 inside, and a whistle opening 1082 is opened on the whistle chamber 1081. A pair of elongated plungers 107 are connected to the bottom end of the temple 1, and the pair of elongated plungers 107 are inserted into the two whistle chambers 1081 of the distress whistle 108, and the elongated plungers 107 extend to the opening of the whistle opening 1082. In use, by pulling the distress whistle 108, the elongated plungers 107 are released from the whistle opening 1082. Air is blown into the bottom of the distress whistle 108 through the mouth. The vibrating airflow flows out from the whistle opening 1082 of the whistle chamber 1081, causing the air inside the distress whistle 108 to vibrate and produce a sound.
[0022] The technical solutions described in the above-mentioned embodiments of this application have at least the following technical effects or advantages: When this utility model is used, by pulling the distress whistle 108, the long plunger 107 is released from the seal of the whistle opening 1082. Gas is blown into the bottom of the distress whistle 108 through the mouth, and the vibrating airflow flows out from the whistle opening 1082 of the whistle cavity 1081, causing the air inside the distress whistle 108 to vibrate and emit a sound, which can send a rescue signal to the outside world, thereby playing the role of sending a distress signal to people surviving in the wild.
[0023] Of course, there may be other implementations of this utility model. Based on this implementation, other implementations obtained by those skilled in the art without any creative effort are all within the scope of protection of this utility model.
Claims
1. A survival glasses suitable for survival in the wild, comprising a temple (1), characterized in that, The temple (1) is a hollow support body. A water suction nozzle (101) is connected to the upper end of the temple (1). A temple connector (102) is connected to the upper end of the water suction nozzle (101). A carbon fiber filter element (105) is provided in the inner cavity of the temple (1) and close to the bottom of the water suction nozzle (101). A high-quality double-layer PP cotton (104) is provided in the inner cavity of the temple (1) and close to the bottom of the carbon fiber filter element (105). A hollow fiber ultrafiltration membrane (103) is provided in the inner cavity of the temple (1) and close to the bottom of the high-quality double-layer PP cotton (104). A sewage inlet (106) is opened at the bottom of the temple (1). A distress whistle (108) is connected to the bottom of the temple (1).
2. The survival glasses of claim 1, wherein, The upper end of the temple (1) is provided with an internal thread, and the bottom of the water suction nozzle (101) is provided with an external thread. The temple (1) and the water suction nozzle (101) are connected by threads.
3. The survival glasses of claim 1, wherein, The upper end of the water suction nozzle (101) is provided with an internal thread, the bottom of the temple connector (102) is provided with an external thread, and the water suction nozzle (101) and the temple connector (102) are connected by threads.
4. The survival glasses of claim 1, wherein, The distress whistle (108) has two whistle chambers (1081) inside, and a whistle opening (1082) is provided on the whistle chamber (1081).
5. The survival glasses of claim 1 or 4, wherein, The bottom end of the temple (1) is connected to a pair of long plungers (107), and the pair of long plungers (107) are inserted into the two whistle chambers (1081) of the distress whistle (108), and the long plungers (107) extend to the opening of the closed whistle port (1082).