Aerial work safety rope
By designing anti-detachment rings and locking arc plates, the problem of tools easily falling off during high-altitude operations has been solved, achieving a stable connection and quick access to the tools, thus improving safety and work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN MAKENG MINING CO LTD
- Filing Date
- 2025-05-29
- Publication Date
- 2026-07-10
AI Technical Summary
Existing high-altitude work tools are prone to falling due to slippage or other reasons during use, and the tools are not stably assembled, posing a risk of falling objects and affecting work efficiency.
A safety rope for preventing tools from falling during high-altitude operations has been designed, comprising a safety rope body, a safety belt body, a front guard plate, a folding tool bag, an anti-slip component, and a winder. It is connected to the tool handle through an anti-slip ring, and a locking arc plate and locking screw are used to achieve a stable connection of the tool. Combined with a buffer structure and elastic frame, it improves safety and convenience.
It enhances the stability of the tools, reduces the risk of falls from heights, improves the safety and work efficiency of staff, ensures that the tools do not come off the safety rope in the event of an accidental fall, and facilitates quick and easy access.
Smart Images

Figure CN224474638U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of high-altitude operation auxiliary equipment, and specifically relates to a safety rope for preventing tools from falling during high-altitude operations. Background Technology
[0002] Currently, in the electrical industry, when working at heights, workers often tie objects to their bodies using safety ropes to prevent falls and personal injury accidents. The purpose of wearing safety belts for various high-altitude workers is to prevent falls from heights. As for the tools used in the work, they can only be placed in separate bags or tool bags. This not only makes it messy and inconvenient to access tools during high-altitude work, but also poses a risk of tools or tool bags falling from heights. Even if ordinary waist-style tool bags are used, they are difficult to wear or uncomfortable for the wearer because the waist bag overlaps with the safety belt straps, which seriously affects work efficiency.
[0003] To address this, Chinese patent CN216366378U discloses a multi-functional safety rope for high-altitude operations, comprising a safety rope body, a first loop lock buckle connected to the top of the safety rope body, and a second buffer frame connected to the middle of the safety rope body. The second buffer frame is connected to the first buffer frame via a sixth connecting strap. The first loop lock buckle facilitates the connection of the safety rope body to an external fixed object, ensuring the safety of workers operating at heights. Multiple second loop lock buckles and a tool bag facilitate the classification and placement of different tools, preventing accidental falling of tools from heights, eliminating safety hazards, and facilitating retrieval. The inclusion of a first buffer frame, a second buffer frame, a filling chamber, a support rod, and a cushioning pad improves the collision performance of the safety rope, making it highly practical.
[0004] However, the aforementioned device simply uses a buffer frame to block and cushion the impact. The buffer structure is simple and ineffective. Furthermore, if the operator slips while using the tool, the tool may fall, posing a risk of falling objects from a height. Additionally, the tools are simply inserted into the container, and due to the size limitations of the tools, they are prone to being unstable when assembled. Utility Model Content
[0005] (a) Technical problems to be solved
[0006] To overcome the shortcomings of existing technologies, a fall protection rope for high-altitude work tools is proposed. This addresses the problem that existing technologies simply use a buffer frame for cushioning, resulting in a simple and ineffective buffer structure. Furthermore, if workers slip while using tools, they are prone to dropping them, posing a risk of falling objects from heights. Additionally, the tools are simply inserted into the frame, and due to size limitations, the tools are prone to instability during assembly.
[0007] (II) Technical Solution
[0008] This utility model is achieved through the following technical solution: This utility model proposes a safety rope for preventing tools from falling during high-altitude operations. Its structure includes a safety rope body and a safety belt body. The back of the safety belt body is fixedly connected to the safety rope body via a buckle. A front guard plate is fixedly connected to the front of the safety belt body. A protective pad is fixedly connected to the inner wall of the front guard plate. A folding tool bag is fixedly connected to the outer wall of the front guard plate. The folding tool bag includes a pocket and a positioning rod. An anti-detachment component is installed on the outer wall of the front guard plate corresponding to the pocket. The anti-detachment component includes an anti-detachment ring and a locking arc plate. The pocket is used to store tools. The anti-detachment ring is used to be fitted onto the tool handle. The locking arc plate can lock the anti-detachment ring onto the tool handle. The positioning rod is used for folding and locking the folding tool bag.
[0009] The outer wall of the front guard plate is fixedly connected with evenly distributed fixed rings, and a movable ring is slidably sleeved on the fixed ring. A fixed block is fixedly connected to the end of the movable ring, and one end of a rope is fixedly connected to the fixed block. The other end of the rope is wound up by a winder and fixedly connected to the locking arc plate.
[0010] The winder includes a winding wheel, a protective shell, a torsion spring, an assembly shaft, an inlet hole, an outlet hole, a self-locking connector, a pressure ring, a through hole, an elastic element, and pressure strips. The front protective plate has an assembly hole, and the assembly shaft is fixed to the front protective plate through the assembly hole. The winding wheel is assembled onto the assembly shaft through a torsion spring. The protective shell covers the winding wheel and is fixed to the assembly shaft. The winding wheel and the protective shell have through-holes. The top of the protective shell has an outlet hole. The protective shell has a self-locking connector at the point through which the outlet hole passes. The self-locking connector is connected to a pressure ring via an elastic element on the side away from the protective shell. Multiple pressure strips are uniformly fixed in a circle on the side of the pressure ring adjacent to the self-locking connector. The side of the pressure strips away from the pressure ring is in contact with the self-locking connector. A through hole is formed in the middle of the self-locking connector and the pressure ring, communicating with the outlet hole. The part where the pressure strips are in contact with the self-locking connector is an inclined surface facing the outlet hole.
[0011] Furthermore, the anti-detachment rings are configured in a one-to-one correspondence with the insert pockets. The locking arc plates are fixedly connected to the outer walls of both sides of the anti-detachment rings. Locking support plates are fixed to the front and rear ends of both locking arc plates. Locking screws are threadedly connected between the corresponding locking support plates. The elasticity of the anti-detachment rings facilitates connection with the handles of different tools. After the tool handle is fitted, the locking screw is rotated until the end of the locking screw is screwed into the locking support plate on the other side. This causes the locking arc plates to lock the anti-detachment rings to the tool handles, achieving a stable connection between the tool and the front guard plate, and then a stable connection with the safety rope. This ensures that even if the tool accidentally slips, it will not detach from the front guard plate, the safety belt body, or the safety rope body, thus enhancing the fall protection effect.
[0012] Furthermore, a locking screw hole is provided at the end of the locking support plate, and the locking screw hole is threadedly connected to the locking screw rod, which facilitates the installation and disassembly of the locking screw rod and makes it easy to use.
[0013] Furthermore, the protective pad is made of rubber material with an arc-shaped structure, and the interior of the protective pad has evenly distributed buffer cavities, on which support springs are fixedly connected.
[0014] Furthermore, the folding tool bag also includes an elastic frame made of a rod-shaped elastic plastic material. Nylon fabric baffles are fixedly connected within the elastic frame. Several insert pockets are provided and fixed to the nylon fabric baffles on the front, ensuring the folding tool bag's elasticity, portability, and ease of use. When tools are needed, the folding tool bag extends, allowing workers to clearly and quickly view and retrieve them, improving work efficiency. When not in use, the folding tool bag retracts and folds, and is fixed to the front panel by a positioning rod, reducing space occupation and providing convenient and flexible storage, further improving efficiency.
[0015] Furthermore, a collar is fixedly connected to the middle of the nylon fabric baffle, and a positioning rod is connected to the middle of the collar via a bearing insert. A threaded section is fixed to the end of the positioning rod, and a positioning screw hole is provided on the outer wall of the front guard plate. The positioning screw hole and the threaded section are threadedly connected, which facilitates the fixing, installation, and disassembly of the positioning rod and the front guard plate. The assembly and disassembly are convenient. When the tool bag needs to be folded and extended, the positioning rod can be rotated to disengage the threaded section from the positioning screw hole. When the tool bag needs to be folded and stored, the positioning rod can be rotated to drive the threaded section to be screwed back into the positioning screw hole.
[0016] Furthermore, the cord is an elastic cord made of elastic rubber.
[0017] Furthermore, the anti-detachment ring and the insert bag are arranged in a one-to-one correspondence, the locking arc plate is fixedly connected to the outer walls of both sides of the anti-detachment ring, the front and rear ends of the two locking arc plates are fixed with locking support plates, and the corresponding locking support plates are threadedly connected with locking screws.
[0018] Furthermore, a locking screw hole is provided at the end of the locking support plate, and the locking screw hole and the locking screw are matched with a threaded connection.
[0019] Furthermore, the elastic element is a compression spring, which is sleeved on the side of the pressure strip away from the through hole. The pressure strip is made of a material with resilience, preferably ABS plastic.
[0020] Furthermore, the winder also includes a pressing groove, a locking tooth, a push rod, a clearance groove, a locking slot, and a locking strip. The bottom of the pressure ring is also fixed with a locking strip. The top of the self-locking connector is provided with a pressing groove. The bottom of the locking strip is located in the pressing groove. A slot is left between the side of the locking strip near the through hole and the pressing groove. The side of the locking strip away from the through hole and near the pressing groove is provided with a locking slot. The locking slot is used to accommodate the locking tooth. The side of the pressing groove away from the through hole is provided with the locking tooth and the clearance groove. The push rod passes through the outer end of the self-locking connector and communicates with the clearance groove. The bottom of the locking strip and the top of the locking slot are both inclined surfaces facing the outlet. The top of the push rod near the clearance groove and the top of the locking tooth are both inclined surfaces that fit with the bottom of the locking strip. The bottom of the locking tooth and the bottom of the locking slot are both flat surfaces.
[0021] Furthermore, the pressure strip is made of a resilient material, preferably ABS plastic.
[0022] (III) Beneficial Effects
[0023] One of the above technical solutions has the following advantages or beneficial effects:
[0024] 1. By combining the protective pad, buffer chamber, and support spring, the protective pad can easily fit the human body, improving the cushioning and shock absorption performance of the safety rope when it is hit, and enhancing the safety protection effect for workers.
[0025] 2. The design incorporates a foldable tool bag, an inner pocket within the tool bag, and a locking mechanism that allows the tool bag to be locked in place. This design increases the stability of the stored tools, preventing them from falling out due to loose assembly. It also makes it easy for staff to quickly and easily view and retrieve the tools. The design reduces space requirements during storage, making it flexible and convenient, and improving work and usage efficiency.
[0026] 3. By using a rope with a winder, combined with an anti-detachment structure that locks the tool in place via a locking guard plate and an anti-detachment ring, the tool can be connected via the anti-detachment ring when needed. The self-locking structure at the winder's outlet ensures that the rope will lock in length when the tool falls, reducing the drop distance. Even if the tool accidentally slips from the hand, it won't stray too far from the front guard plate, making it easy for workers to retrieve and use again. This device not only avoids the danger of falling objects from heights but also ensures normal work operation, preventing interruptions and improving efficiency. Attached Figure Description
[0027] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0028] Figure 1 This is a three-dimensional structural schematic diagram provided in an embodiment of the present utility model;
[0029] Figure 2 This is a schematic diagram of the structure of the front guard plate in an embodiment of this utility model;
[0030] Figure 3 This is a schematic diagram of the positioning rod structure provided in an embodiment of the present utility model;
[0031] Figure 4 This is a schematic diagram of the structure of the movable ring portion in an embodiment of this utility model;
[0032] Figure 5 This is provided by the embodiment of the present utility model. Figure 2 Enlarged structural diagram at point A in the middle;
[0033] Figure 6 This is a schematic diagram of the anti-detachment ring part in an embodiment of this utility model;
[0034] Figure 7 This is a cross-sectional structural schematic diagram of the winder according to an embodiment of the present invention;
[0035] Figure 8 This is provided by the embodiment of the present utility model. Figure 7 Enlarged structural diagram at point B.
[0036] In the diagram: 1. Safety rope body; 101. Safety belt body; 2. Front guard plate; 201. Fixing ring; 202. Positioning screw hole; 203. Assembly hole; 3. Protective pad; 301. Buffer chamber; 302. Support spring; 4. Folding tool bag; 401. Elastic frame; 402. Nylon cloth baffle; 403. Insert pocket; 5. Anti-slip assembly; 501. Anti-slip ring; 502. Locking arc plate; 503. Locking support plate; 504. Locking screw hole; 505. Locking screw; 506. Rope; 5 7. Fixing block; 508. Movable ring; 6. Positioning rod; 601. Threaded section; 602. Collar; 7. Winder; 701. Winding wheel; 702. Protective shell; 703. Torsion spring; 704. Assembly shaft; 705. Inlet hole; 706. Outlet; 707. Self-locking connector; 708. Pressure ring; 709. Through hole; 710. Elastic element; 711. Pressure strip; 712. Pressing groove; 713. Clamping tooth; 714. Top rod; 715. Clearance groove; 716. Clamping groove; 717. Clamping strip. Detailed Implementation
[0037] The present invention will be further described in detail below with reference to the embodiments, but the implementation of the present invention is not limited thereto.
[0038] This utility model provides a safety rope for preventing tools from falling during high-altitude operations: its structure includes a safety rope body 1 and a safety belt body 101, characterized in that: the back of the safety belt body 101 is fixedly connected to the safety rope body 1 via a buckle, a front guard plate 2 is fixedly connected to the front of the safety belt body 101, a protective pad 3 is fixedly connected to the inner wall of the front guard plate 2, and a folding tool bag 4 is fixedly connected to the outer wall of the front guard plate 2. The folding tool bag 4 includes a pocket 403 and a positioning rod 6. An anti-detachment component 5 is installed on the outer wall of the front guard plate 2 corresponding to the pocket 403. The anti-detachment component 5 includes an anti-detachment ring 501 and a locking arc plate 502. The pocket 403 is used to store tools, the anti-detachment ring 501 is used to be fitted onto the handle of the tool, the locking arc plate 502 can lock the anti-detachment ring 501 onto the handle of the tool, and the positioning rod 6 is used for folding and locking the folding tool bag 4.
[0039] A uniformly distributed fixing ring 201 is fixedly connected to the outer wall of the front guard plate 2. A movable ring 508 is slidably sleeved on the fixing ring 201. A fixing block 507 is fixedly connected to the end of the movable ring 508. One end of a rope 506 is fixedly connected to the fixing block 507. The other end of the rope 506 is wound up by the winder 7 and fixedly connected to the locking arc plate 502.
[0040] The winder 7 includes a winding wheel 701, a protective shell 702, a torsion spring 703, an assembly shaft 704, an inlet hole 705, an outlet hole 706, a self-locking connector 707, a pressure ring 708, a through hole 709, an elastic element 710, and a pressure strip 711. The front protective plate 2 has an assembly hole 203. The assembly shaft 704 is fixed to the front protective plate 2 through the assembly hole 203. The winding wheel 701 is fitted onto the assembly shaft 704 via the torsion spring 703. The protective shell 702 covers the winding wheel 701 and is fixed to the assembly shaft 704. The inlet hole 705 passes through both the winding wheel 701 and the protective shell 702. The top of the housing 702 is provided with a cable outlet 706. A self-locking connector 707 is provided at the point through which the housing 702 is penetrated by the cable outlet 706. A pressure ring 708 is connected to the side of the self-locking connector 707 away from the housing 702 through an elastic element 710. Multiple pressure strips 711 are uniformly fixed in a circle on the side of the pressure ring 708 adjacent to the self-locking connector 707. The side of the pressure strips 711 away from the pressure ring 708 is in contact with the self-locking connector 707. A through hole 709 is formed in the middle of the self-locking connector 707 and the pressure ring 708, which communicates with the cable outlet 706. The part where the pressure strips 711 are in contact with the self-locking connector 707 is an inclined surface that is inclined towards the cable outlet 706.
[0041] The protective pad 3 is made of rubber material with an arc-shaped structure. The interior of the protective pad 3 has evenly distributed buffer cavities 301, and a support spring 302 is fixedly connected to the buffer cavity 301.
[0042] By adopting the above scheme, the protective pad 3 can easily fit the human body. Through the cooperation of the protective pad 3, the buffer cavity 301 and the support spring 302, the buffering and shock resistance performance of the safety rope when it is hit by a collision is improved, and the safety protection effect for the staff is enhanced.
[0043] The folding tool bag 4 also includes an elastic frame 401, which is made of elastic plastic material with a rod-like structure. Nylon cloth baffles 402 are fixedly connected inside the elastic frame 401. Several insert pockets 403 are provided and are all fixed to the nylon cloth baffles 402 on the front.
[0044] The above solution ensures the elasticity and portability of the folding tool bag 4, making it convenient to use. When tools are needed, the folding tool bag 4 extends, allowing staff to clearly and quickly view and retrieve the tools, which helps improve work efficiency. When not in use, the folding tool bag 4 retracts and folds, and is fixed to the front guard plate 2 by the positioning rod 6, reducing space occupation and making storage convenient and flexible, which helps improve usage efficiency.
[0045] The nylon fabric baffle 402 is fixedly connected to the middle of a collar 602. The middle of the collar 602 is connected to a positioning rod 6 via a bearing insert. The end of the positioning rod 6 is fixed with a threaded section 601. The outer wall of the front guard plate 2 is provided with a positioning screw hole 202. The positioning screw hole 202 and the threaded section 601 are threadedly connected.
[0046] The above solution facilitates the installation and removal of the positioning rod 6 and the front guard plate 2. The installation and removal are convenient. When the tool bag 4 needs to be folded and extended, simply rotate the positioning rod 6 to disengage its threaded section 601 from the positioning screw hole 202. When the tool bag 4 needs to be folded and stored, simply rotate the positioning rod 6 to drive the threaded section 601 to be screwed back into the positioning screw hole 202.
[0047] The cord 506 is an elastic cord made of elastic rubber.
[0048] The above-mentioned solution facilitates the secure installation of the anti-detachment ring 501, and the rope 506 allows for flexible extension and retraction of the tool connected to the anti-detachment ring 501, ensuring a stable and elastic connection between the anti-detachment ring 501 and the front guard plate 2. Even if the tool accidentally slips from the hand, it will not detach from the front guard plate 2, making it convenient for workers to retrieve and use it again. Thus, this device not only avoids the danger of falling objects from heights, but also ensures the normal operation of the work and avoids work interruption, thereby improving the efficiency of use and work.
[0049] The anti-detachment ring 501 and the insert bag 403 are respectively arranged in a one-to-one correspondence. The locking arc plate 502 is fixedly connected to the outer walls of both sides of the anti-detachment ring 501. The front and rear ends of the two locking arc plates 502 are fixed with locking support plates 503, and the corresponding locking support plates 503 are threadedly connected with locking screws 505.
[0050] By adopting the above solution, the elasticity of the anti-detachment ring 501 facilitates its connection with the handles of different tools. After the anti-detachment ring 501 is fitted onto the tool handle, the locking screw 505 is rotated until the end of the locking screw 505 is screwed into the locking support plate 503 on the other side. This, in turn, drives the locking arc plate 502 to lock the anti-detachment ring 501 onto the tool handle, thus achieving a stable connection between the tool and the front guard plate 2, and subsequently a stable connection with the safety rope. This ensures that even if the tool accidentally slips, it will not detach from the front guard plate 2, the safety belt body 101, and the safety rope body 1, thereby enhancing the fall protection effect.
[0051] The locking support plate 503 has a locking screw hole 504 at its end, and the locking screw hole 504 is threadedly connected to the locking screw 505.
[0052] The elastic element 710 is a compression spring, and the elastic element 710 is sleeved on the side of the pressure strip 711 away from the through hole 709. The pressure strip 711 is made of a material with resilience.
[0053] When in use, insert each tool into the tool bag 403 and attach the corresponding anti-detachment ring 501 to the tool handle. Then, turn the locking screw 505 into the opposite locking plate 503, which in turn drives the locking arc plate 502 to lock the anti-detachment ring 501 onto the tool handle, achieving a stable installation of the tool. Then, connect the safety rope body 1 to an external fixed object, and the worker puts on the safety belt body 101, facing the folded tool bag 4, to perform high-altitude work. At this time, the protective pad 3 fits the body, improving the cushioning and shock absorption performance of the safety rope when it is hit, and enhancing the safety protection effect for the worker. When using the tool, rotate the positioning rod 6 to disengage its threaded section 601 from the positioning screw hole 202, causing the folded tool bag 4 to extend and open, making it easy for the worker to clearly and quickly view and take out the tool. This device improves work efficiency. In case of an accident, the cord 506 provides enhanced protection for the tool. Even if the tool accidentally slips from the hand, the cord 506 will fall with it. The cord 506 will push the pressure ring 708 towards the self-locking connector 707 due to the pulling force. This causes the pressure bar 711 to move into the through hole 709 due to the inclined surface, clamping the cord 506. This ensures that even if the tool falls, it will not fall too far from the front guard plate 2, making it convenient for workers to retrieve and use it again. Thus, this device not only avoids the danger of falling objects from heights but also ensures the normal operation of the work and avoids work interruption, improving efficiency. At the same time, the design of the pressure ring 708 being connected to the self-locking connector 707 through the elastic element 710 also allows the pressure ring 708 to remain in the raised state when not under tension or pressure, avoiding affecting the normal winding and unwinding of the cord 506.
[0054] The winder 7 further includes a pressing groove 712, a retaining tooth 713, a push rod 714, a clearance groove 715, a retaining groove 716, and a retaining strip 717. The bottom of the pressure ring 708 is also fixed with a retaining strip 717. The top of the self-locking connector 707 is provided with a pressing groove 712. The bottom of the retaining strip 717 is located within the pressing groove 712. A slot is left between the retaining strip 717 and the pressing groove 712 on the side adjacent to the through hole 709. The retaining strip 717 has a retaining groove 716 on the side away from the through hole 709 and adjacent to the pressing groove 712. The slot 716 is used to accommodate the tooth 713. The pressing groove 712 is provided with the tooth 713 and the clearance groove 715 on the side away from the through hole 709. The push rod 714 passes through the outer end of the self-locking connector 707 and communicates with the clearance groove 715. The bottom of the locking strip 717 and the top of the slot 716 are both inclined surfaces facing the outlet 706. The top of the push rod 714 on the side adjacent to the clearance groove 715 and the top of the tooth 713 are both inclined surfaces that fit with the bottom of the locking strip 717. The bottom of the tooth 713 and the bottom of the slot 716 are both flat surfaces.
[0055] The pressure strip 711 is made of a resilient material.
[0056] When the cord 506 is triggered to lock the pressure ring 708, the locking bar 717 will also move into the pressing groove 712, so that the locking teeth 713 will engage in the locking groove 716 to lock the locking bar 717. At this time, even if the winder 7 is reversed, the pressure ring 708 will not move due to the reverse pull of the cord 506, and will maintain the clamping of the cord 506. Only when the push rod 714 is manually pressed to push the locking bar 717 into the pressing groove 712, so that the locking groove 716 is disengaged from the locking teeth 713, will the pressure ring 708 reset, further ensuring the stability of the cord 506 when locked.
[0057] In the description of this utility model, it should be noted that the terms "upper", "lower", "left", "right", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0058] The control method of this utility model is to control the device by manually starting and stopping the switch. The wiring diagram of the power element and the supply of power are common knowledge in the field. Since this utility model is mainly used to protect mechanical devices, the control method and wiring layout will not be explained in detail.
[0059] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It will be apparent to those skilled in the art that this utility model is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or basic characteristics of this utility model. Therefore, the embodiments should be considered exemplary and non-limiting in all respects. The scope of this utility model is defined by the appended claims rather than the foregoing description, and thus all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this utility model. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0060] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A safety rope for preventing falls from work equipment during high-altitude operations, comprising a safety rope body (1) and a safety belt body (101), characterized in that: The back of the safety belt body (101) is fixedly connected to the safety rope body (1) by a buckle. The front of the safety belt body (101) is fixedly connected to a front guard plate (2). The inner wall of the front guard plate (2) is fixedly connected to a protective pad (3). The outer wall of the front guard plate (2) is fixedly connected to a folding tool bag (4). The folding tool bag (4) includes a pocket (403) and a positioning rod (6). An anti-slip component (5) is installed on the outer wall of the front guard plate (2) corresponding to the pocket (403). The anti-slip component (5) includes an anti-slip ring (501) and a locking arc plate (502). The pocket (403) is used to store tools. The anti-slip ring (501) is used to be fitted onto the handle of the tool. The locking arc plate (502) can lock the anti-slip ring (501) onto the handle of the tool. The positioning rod (6) is used to lock the folding of the folding tool bag (4). The front guard plate (2) is fixedly connected to the outer wall of the uniformly distributed fixed rings (201). The fixed rings (201) are slidably fitted with movable rings (508). The end of the movable rings (508) is fixedly connected to a fixed block (507). One end of the fixed block (507) is fixedly connected to a rope (506). The other end of the rope (506) is wound up by a winder (7) and fixedly connected to the locking arc plate (502). The winder (7) includes a winding wheel (701), a protective shell (702), a torsion spring (703), an assembly shaft (704), an inlet hole (705), an outlet hole (706), a self-locking connector (707), a pressure ring (708), a through hole (709), an elastic element (710), and a pressure strip (711). The front protective plate (2) is provided with an assembly hole (203). The assembly shaft (704) is fixed to the front protective plate (2) through the assembly hole (203). The winding wheel (701) is sleeved and assembled on the assembly shaft (704) through the torsion spring (703). The protective shell (702) covers the winding wheel (701) and is fixed to the assembly shaft (704). The winding wheel (701) and the protective shell (702) are provided with an inlet hole (705). The protective shell (702) has a cable outlet (706) through the top. The protective shell (702) has a self-locking connector (707) through the cable outlet (706). The self-locking connector (707) is connected to a pressure ring (708) through an elastic element (710) on the side away from the protective shell (702). The pressure ring (708) has multiple pressure strips (711) that are uniformly fixed in a circle on the side adjacent to the self-locking connector (707). The pressure strips (711) are in contact with the self-locking connector (707) on the side away from the pressure ring (708). A through hole (709) is formed in the middle of the self-locking connector (707) and the pressure ring (708) and communicates with the cable outlet (706). The part where the pressure strips (711) are in contact with the self-locking connector (707) is an inclined surface that is inclined towards the cable outlet (706).
2. The safety rope for preventing falls from high-altitude work equipment according to claim 1, characterized in that: The protective pad (3) is made of rubber material with an arc structure. The interior of the protective pad (3) has evenly distributed buffer cavities (301), and a support spring (302) is fixedly connected to the buffer cavity (301).
3. The safety rope for preventing falls from high-altitude work equipment according to claim 1, characterized in that: The folding tool bag (4) also includes an elastic frame (401), which is made of elastic plastic material with a rod-like structure. Nylon cloth baffles (402) are fixedly connected inside the elastic frame (401). The insert pocket (403) has several of them, all of which are fixed to the nylon cloth baffles (402) on the front.
4. A safety rope for preventing falls from high-altitude work equipment according to claim 3, characterized in that: A collar (602) is fixedly connected to the middle of the nylon fabric baffle (402). A positioning rod (6) is connected to the middle of the collar (602) through a bearing sleeve. A threaded section (601) is fixed to the end of the positioning rod (6). A positioning screw hole (202) is opened on the outer wall of the front guard plate (2). The positioning screw hole (202) is threadedly connected to the threaded section (601).
5. A safety rope for preventing falls from high-altitude work equipment according to claim 1, characterized in that: The cord (506) is an elastic cord made of elastic rubber.
6. A safety rope for preventing falls from high-altitude work equipment according to claim 1, characterized in that: The anti-detachment ring (501) and the insert bag (403) are respectively provided one-to-one. The locking arc plate (502) is fixedly connected to the outer walls of both sides of the anti-detachment ring (501). The front and rear ends of the two locking arc plates (502) are fixed with locking support plates (503). The corresponding locking support plates (503) are threadedly connected with locking screws (505).
7. A safety rope for preventing falls from high-altitude work equipment according to claim 6, characterized in that: The locking support plate (503) has a locking screw hole (504) at its end, and the locking screw hole (504) is threadedly connected to the locking screw (505).
8. A safety rope for preventing falls from high-altitude work equipment according to claim 1, characterized in that: The elastic element (710) is a compression spring, and the elastic element (710) is sleeved on the side of the pressure strip (711) away from the through hole (709). The pressure strip (711) is made of a material with resilience.
9. A safety rope for preventing falls from high-altitude work equipment as described in claim 1 or 8, characterized in that: The winder (7) further includes a pressing groove (712), a retaining tooth (713), a top rod (714), a clearance groove (715), a retaining groove (716), and a retaining strip (717). The bottom of the pressure ring (708) is also fixed with a retaining strip (717). The top of the self-locking connector (707) is provided with a pressing groove (712). The bottom of the retaining strip (717) is located in the pressing groove (712). A slot is left between the retaining strip (717) and the pressing groove (712) on the side of the retaining strip (717) adjacent to the through hole (709). A retaining groove (716) is provided on the side of the retaining strip (717) away from the through hole (709) and adjacent to the pressing groove (712). The slot (716) is used to accommodate the tooth (713). The pressing groove (712) is provided with the tooth (713) and the clearance groove (715) on the side away from the through hole (709). The push rod (714) passes through the outer end of the self-locking connector (707) and communicates with the clearance groove (715). The bottom of the locking strip (717) and the top of the slot (716) are both inclined surfaces facing the outlet (706). The top of the push rod (714) near the clearance groove (715) and the top of the tooth (713) are both inclined surfaces that fit with the bottom of the locking strip (717). The bottom of the tooth (713) and the bottom of the slot (716) are both flat surfaces.
10. A safety rope for preventing falls from high-altitude work equipment according to claim 9, characterized in that: The pressure strip (711) is made of a resilient material.