A tensile device

By combining components such as upper embedded plates, external hexagonal anchor bolts, embedded sleeves, fixing seats, and butterfly springs, the stability and cleaning issues of the tensile device were solved, achieving uniform distribution of tensile force and equipment cleaning, thus improving the safety of the structure and cleaning efficiency.

CN224416581UActive Publication Date: 2026-06-26HEBEI XINGMA RUBBER TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEBEI XINGMA RUBBER TECHNOLOGY CO LTD
Filing Date
2025-06-07
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing tensile devices cannot achieve the desired tensile effect, which may cause the structure to loosen or become unstable under external forces, and the inconvenience of cleaning may lead to equipment failure.

Method used

By combining components such as upper embedded plates, external hexagonal anchor bolts, embedded sleeves, fixing seats, and butterfly springs, the tensile force is evenly distributed and the structural stability is enhanced. At the same time, a cleaning device is designed to keep the guide rail clean, including a lower arc shovel and a collection box to remove dirt.

Benefits of technology

It achieves uniform distribution of tension, improves the safety and reliability of the structure, reduces the occurrence of failures, ensures stable operation of the equipment, and facilitates cleaning and waste management.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to tensile technical field, proposes a kind of tensile device, including fixed plate, mobile tensile device, cleaning device, the bottom of the fixed plate is provided with mobile tensile device, and tensile function is realized by mutually cooperating with pre-buried sleeve, fixed seat and the like components, operator is fixed with pre-buried sleeve by outer hexagon anchor bolt to upper pre-buried plate, then anchor bar is connected with pre-buried sleeve, subsequently, fastener connecting bolt is connected with butterfly spring and is sleeved, fastener is bolted to fixed seat with fastener connecting bolt, then guide rail is connected with fastener, and guide rail connection is fixed in the bottom of pre-buried plate with pre-buried sleeve and anchor bar by outer hexagon anchor bolt.To realize the combination of each component, evenly distribute and fix tensile force, prevent any part from loosening or instability due to excessive external force, ensure the safety and reliability of structure. Through the above technical scheme, the tensile problem in the prior art is solved.
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Description

Technical Field

[0001] This utility model relates to the field of tensile technology, specifically to a tensile device. Background Technology

[0002] Tensile strength is usually expressed as tensile capacity, measured in megapascals (MPa). Tensile strength is an important indicator of the maximum force a material can withstand under tensile stress. A common testing method is the tensile test, in which the sample is subjected to tensile force until it breaks, and the maximum tensile force it can withstand is measured.

[0003] According to the public announcement (Announcement No.: CN221878432U), a tensile device includes an upper embedded plate, sliding fastener I, slider I, sliding fastener II, slider II, pad, slider III, lower connecting plate, connecting rod, slide groove I, slide groove II, and slide groove III. The buffer pad of this utility model enables the entire tensile device to have the ability of vertical compression deformation. At the same time, the cooperation of the buffer pad, slider II, and slider III slide rails can make the entire tensile device bear force evenly and avoid stress concentration and damage.

[0004] The aforementioned patent achieves the effect of uniform stress distribution and avoids stress concentration leading to damage by using components such as the upper embedded plate and sliding fastener I in cooperation. However, it cannot achieve a better tensile effect. Therefore, we propose a tensile device. Utility Model Content

[0005] This invention proposes a tensile device that solves the problem in related technologies that cannot achieve better tensile effects.

[0006] According to one aspect, at least one embodiment of this disclosure provides a tensile device, including: a fixed plate, a movable tensile device, and a cleaning device, wherein the movable tensile device is disposed at the bottom of the fixed plate;

[0007] The movable tensile-resistance device includes an upper embedded plate, the bottom of which is fixedly connected to the top of a fixed plate. An external hexagonal anchor bolt is threaded through the bottom of the upper embedded plate. An embedded sleeve is fixedly connected to the top of the upper embedded plate. A fixed seat is fixedly connected to the bottom of the upper embedded plate. A fastener is fitted onto the bottom of the fixed seat. A fastener connecting bolt is fixedly connected to the bottom of the fastener. A guide rail is slidably connected to the inner side of the fastener. Bolts are fixedly connected to the bottom of the guide rail. A lower connecting plate is connected to the bottom of the guide rail via bolts and screws. The embedded plate is fixedly connected to the bottom of the lower connecting plate via bolts. An anchor bar is fixedly connected to one end of the embedded sleeve. The main function of this device is to evenly distribute and fix the tensile force through the combination of various components, preventing any part from loosening or becoming unstable due to excessive external force, thus ensuring the safety and reliability of the structure.

[0008] For example, in at least one embodiment of the tensile device provided in this disclosure, the device further includes: a butterfly spring fixedly connected to the bottom of the fixing base, one end of the butterfly spring being fixedly connected to the top of the fastener. The butterfly spring provides an effective self-adjusting and stabilizing effect, enhancing the overall tensile strength and stability of the device.

[0009] The top of the upper embedded plate is provided with multiple external hexagonal anchor bolts, which are arranged in an array along the horizontal axis of the upper embedded plate. The arrangement of multiple external hexagonal anchor bolts along the horizontal axis makes the entire structure more uniform and stable, enhances the load-bearing capacity and tensile strength, and improves the overall stability and reliability of the device.

[0010] Multiple embedded sleeves are provided, and each embedded sleeve corresponds to a multiple external hexagonal anchor bolts. The corresponding arrangement of multiple embedded sleeves and external hexagonal anchor bolts enhances the stability, load-bearing capacity, and impact resistance of the device, while improving installation accuracy and maintenance convenience, ensuring the reliability and durability of the structure.

[0011] The fastener connection bolts are provided in two pairs, and the two fastener connection bolts are symmetrical about the longitudinal axis of the fastener. The symmetrical arrangement of the fastener connection bolts improves the reliability, safety and durability of the structure by balancing the force, enhancing stability and resistance to deformation.

[0012] Two disc springs are provided, and the two disc springs are symmetrical about the longitudinal axis of the fastener. The symmetrical arrangement of the disc springs improves the overall structure's durability, seismic resistance, and impact resistance by balancing the force, enhancing stability, and improving resistance to deformation, making the equipment more reliable during operation and reducing the occurrence of failures.

[0013] The fastener connecting bolts are located on the inner side of the disc spring, and an embedded sleeve is also provided at the bottom of the embedded plate. This design, with the fastener connecting bolts located on the inner side of the disc spring and the embedded sleeve at the bottom of the embedded plate, enhances the overall structural performance and stability by strengthening mechanical support, improving connection tightness, simplifying installation, enhancing seismic resistance, and increasing system durability.

[0014] Multiple embedded sleeves are also provided on the embedded plate, and the embedded sleeves on the embedded plate are arranged in an array along the horizontal axis of the embedded plate. The arrangement of multiple embedded sleeves on the embedded plate in an array along the horizontal axis can improve the stability, load-bearing capacity, seismic resistance and impact resistance of the structure, while optimizing the stress distribution, simplifying the installation and maintenance process, and increasing the flexibility and adjustability of the system.

[0015] According to another aspect, at least one embodiment of this disclosure also provides a tensile device, including: a cleaning device is provided on the side of the guide rail, the cleaning device including a lower arc shovel, the side of the lower arc shovel being fixedly connected to the side of the guide rail, a fixing frame being bolted to the side of the fastener, and a collection box being fixedly connected to the bottom of the fixing frame. This cleaning system is designed to maintain the cleanliness of the guide rail and the normal operation of the equipment, prevent malfunctions or inefficiencies caused by the accumulation of dirt, and also facilitate subsequent waste collection and cleaning.

[0016] For example, in at least one embodiment of this disclosure, a tensile device further includes: the inner side of the fastener is located on the displacement trajectory of the lower arc shovel, the top of the collection box is located on the displacement trajectory of the lower arc shovel, and two lower arc shovels, collection boxes, and fixing frames are provided. The two lower arc shovels are respectively located on both sides of the guide rail, and the two collection boxes and fixing frames are respectively located on both sides of the fastener. Providing two lower arc shovels, two collection boxes, and fixing frames, respectively located on both sides of the guide rail, can significantly improve the efficiency, stability, and adaptability of the cleaning device, making the cleaning work more thorough and uniform, and facilitating subsequent waste collection and management.

[0017] The working principle and beneficial effects of this utility model are as follows:

[0018] 1. This utility model achieves tensile strength through the coordinated use of components such as an upper embedded plate, external hexagonal anchor bolts, embedded sleeves, and fixing seats. Operators fix the embedded sleeve to the upper embedded plate using the external hexagonal anchor bolts, then connect the anchor bar to the embedded sleeve. Next, the fastener connecting bolts are connected to the disc spring, and the fastener is bolted to the fixing seat. Finally, the guide rail is connected to the fastener, and the guide rail connection uses external hexagonal anchor bolts to fix the embedded sleeve and anchor bar to the bottom of the embedded plate. This combination of components evenly distributes and fixes the tensile force, preventing any part from loosening or becoming unstable due to excessive external force, thus ensuring the safety and reliability of the structure.

[0019] 2. This utility model utilizes the coordinated operation of components such as a lower arc shovel, a fixing frame, and a collection box. The operator bolts the fixing frame to the side of the fastener. As the guide tube moves within the fastener, the guide rail drives the lower arc shovel to move horizontally. During this horizontal movement, the lower arc shovel slides against the inner surface of the fastener, thus cleaning and pushing out dust and other obstructions from the inner surface of the fastener. The pushed-out dirt is then collected and centrally processed through the collection box. This maintains the cleanliness of the guide rail and ensures the normal operation of the equipment, preventing malfunctions or inefficiencies caused by dirt accumulation, while also facilitating subsequent waste collection and cleaning. Attached Figure Description

[0020] The preferred embodiments will be described below in a clear and easy-to-understand manner, in conjunction with the accompanying drawings, to further explain the above-mentioned characteristics, technical features, advantages and implementation methods of this utility model.

[0021] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0022] Figure 2 This is a side view of the structure of this utility model;

[0023] Figure 3 This is a schematic diagram of the structure of the mobile tensile device of this utility model;

[0024] Figure 4 This utility model Figure 2 A magnified structural diagram of A in the middle;

[0025] Figure 5 This utility model Figure 3 A magnified structural diagram of B in the diagram.

[0026] In the diagram: 1. Fixed plate; 2. Mobile tensile device; 3. Cleaning device; 21. Upper embedded plate; 22. External hexagonal anchor bolt; 23. Embedded sleeve; 24. Fixed seat; 25. Fastener; 26. Fastener connecting bolt; 27. Butterfly spring; 28. Guide rail; 29. ​​Bolt; 210. Lower connecting plate; 211. Embedded plate; 212. Anchor bar; 31. Lower arc shovel; 32. Fixed frame; 33. Collection box. Detailed Implementation

[0027] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the specific implementation methods of this utility model will be described below with reference to the accompanying drawings. Obviously, the drawings described below are merely some embodiments of this utility model. For those skilled in the art, other drawings and other implementation methods can be obtained based on these drawings without any creative effort.

[0028] To keep the drawings concise, only the parts relevant to the utility model are shown schematically in each drawing; these do not represent the actual structure of the product. Furthermore, for ease of understanding, in some drawings, only one of the components with the same structure or function is schematically shown, or only one is labeled. In this document, "a" not only means "only one," but can also mean "more than one," and "several" includes "two" and "more than two."

[0029] In this document, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0030] Furthermore, in the description of this application, the terms "first," "second," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance.

[0031] like Figures 1-5 As shown, a tensile device according to an embodiment of the present disclosure is provided, including: a fixed plate 1, and a movable tensile device 2 is provided at the bottom of the fixed plate 1;

[0032] The mobile tensile device 2 includes an upper embedded plate 21, the bottom of which is fixedly connected to the top of a fixed plate 1. An external hexagonal anchor bolt 22 is threaded through the bottom of the upper embedded plate 21. An embedded sleeve 23 is fixedly connected to the top of the upper embedded plate 21. A fixed seat 24 is fixedly connected to the bottom of the upper embedded plate 21. A fastener 25 is sleeved on the bottom of the fixed seat 24. A fastener connecting bolt 26 is fixedly connected to the bottom of the fastener 25. A guide rail 28 is slidably connected to the inner side of the fastener 25. A bolt 29 is fixedly connected to the top of the guide rail 28. A lower connecting plate 210 is screwed to the bottom of the guide rail 28 via bolt 29. An embedded plate 211 is fixedly connected to the bottom of the lower connecting plate 210 via bolt 29. An anchor bar 212 is fixedly connected to one end of the embedded sleeve 23. The main function of this device is to evenly distribute and fix the tensile force through the combination of various components, preventing any part from loosening or becoming unstable due to excessive external force, thus ensuring the safety and reliability of the structure.

[0033] In some examples, a butterfly spring 27 is fixedly connected to the bottom of the mounting base 24, with one end of the butterfly spring 27 fixedly connected to the top of the fastener 25. The butterfly spring 27 provides an effective self-adjusting and stabilizing effect, enhancing the overall tensile strength and stability of the device.

[0034] Multiple hexagonal anchor bolts 22 are provided on the top of the upper embedded plate 21, and the multiple hexagonal anchor bolts 22 are arranged in an array along the horizontal axis of the upper embedded plate 21. The arrangement of the multiple hexagonal anchor bolts 22 along the horizontal axis makes the entire structure more uniform and stable, enhances the load-bearing capacity and tensile strength, and improves the overall stability and reliability of the device.

[0035] Multiple embedded sleeves 23 are provided, and multiple embedded sleeves 23 correspond to multiple external hexagonal anchor bolts 22. The corresponding arrangement of multiple embedded sleeves 23 and external hexagonal anchor bolts 22 enhances the stability, load-bearing capacity and impact resistance of the device, while improving installation accuracy and maintenance convenience, and ensuring the reliability and durability of the structure.

[0036] There are two fastener connecting bolts 26, which are symmetrical about the longitudinal axis of the fastener 25. The symmetrical arrangement of the fastener connecting bolts 26 improves the reliability, safety and durability of the structure by balancing the force, enhancing stability and resistance to deformation.

[0037] Two disc springs 27 are provided, and the two disc springs 27 are symmetrical about the longitudinal axis of the fastener 25. The symmetrical arrangement of the disc springs 27 improves the overall structure's durability, seismic resistance, and impact resistance by balancing the force, enhancing stability, and improving resistance to deformation, making the equipment more reliable during operation and reducing the occurrence of failures.

[0038] The fastener connecting bolt 26 is located on the inner side of the disc spring 27, and the bottom of the embedded plate 211 is also provided with an embedded sleeve 23. This design, by enhancing mechanical support, improving connection tightness, simplifying installation, improving seismic resistance, and enhancing system durability, improves the overall performance and stability of the structure.

[0039] Multiple embedded sleeves 23 are also provided on the embedded plate 211, and the embedded sleeves 23 on the embedded plate 211 are arranged in an array along the horizontal axis of the embedded plate 211. The multiple embedded sleeves 23 on the embedded plate 211 arranged in an array along the horizontal axis can improve the stability, load-bearing capacity, seismic resistance and impact resistance of the structure, while optimizing the stress distribution, simplifying the installation and maintenance process, and increasing the flexibility and adjustability of the system.

[0040] For example, such as Figures 1-5As shown, the operator first securely fixes the embedded sleeve 23 to the upper embedded plate 21 using the external hexagonal anchor bolts 22, ensuring a stable connection between the upper embedded plate 21 and the embedded sleeve 23. Next, the operator connects the anchor bar 212 to the embedded sleeve 23, ensuring a tight and reliable connection to provide a stable foundation for subsequent installation. Then, the operator connects the fastener bolt 26 to the disc spring 27, ensuring the disc spring 27 functions correctly and provides necessary elastic support. Next, the fastener 25 is bolted to the fixing seat 24 using the fastener bolt 26. At this time, the disc spring 27 is compressed, and its own elastic force acts between the fastener 25 and the fixing seat 24, causing the fastener bolt 26 and the threaded groove of the fixing seat 24 to tightly contact each other. This ensures that the fastener 25 is firmly fixed to the fixing seat 24, preventing the fastener bolt 26 from loosening due to external force, thus laying the foundation for the installation of the guide rail 28. Finally, the operator connects the guide rail 28 to the fastener 25, and fixes the embedded sleeve 23 and the anchor bar 212 to the bottom of the embedded plate 211 with the external hexagonal anchor bolt 22 to ensure that the guide rail 28 can be stably installed on the embedded plate 211 and has sufficient load-bearing capacity and stability.

[0041] like Figures 1-5 As shown, another embodiment of the tensile device of this disclosure is illustrated. It is largely the same as the technical solution described above, so only the differences are emphasized. These differences include: a cleaning device 3 is provided on the side of the guide rail 28; the cleaning device 3 includes a lower arc shovel 31, the side of which is fixedly connected to the side of the guide rail 28; a fixing frame 32 is bolted to the side of the fastener 25; and a collection box 33 is fixedly connected to the bottom of the fixing frame 32. This cleaning system is designed to maintain the cleanliness of the guide rail 28 and the normal operation of the equipment, preventing malfunctions or inefficiencies caused by the accumulation of dirt, while also facilitating subsequent waste collection and cleaning.

[0042] In some examples, the inner side of the fastener 25 is located on the displacement trajectory of the lower arc shovel 31, the top of the collection box 33 is located on the displacement trajectory of the lower arc shovel 31, and two lower arc shovels 31, collection boxes 33, and fixing frames 32 are provided. The two lower arc shovels 31 are respectively located on both sides of the guide rail 28, and the two collection boxes 33 and fixing frames 32 are respectively located on both sides of the fastener 25. Providing two lower arc shovels 31, two collection boxes 33, and fixing frames 32, respectively located on both sides of the guide rail 28, can significantly improve the efficiency, stability, and adaptability of the cleaning device 3, making the cleaning work more thorough and uniform, and facilitating subsequent waste collection and management.

[0043] For example, such as Figures 1-5As shown, the operator first securely bolts the fixing bracket 32 ​​to the side of the fastener 25, ensuring a stable and reliable connection between the fixing bracket 32 ​​and the fastener 25. When the guide rail 28 moves within the fastener 25, the guide rail 28, through its linkage with the fastener, drives the lower arc shovel 31 to move horizontally. During this horizontal movement, the lower arc shovel 31 slides against the inner surface of the fastener 25, effectively cleaning dust, dirt, and other obstructions from the inner surface of the fastener 25. These dirt and debris are gradually pushed out by the lower arc shovel 31, detaching from the surface of the fastener 25. Subsequently, the pushed-out dirt is guided into the collection box 33 for centralized collection and treatment to prevent the spread and accumulation of debris, thereby maintaining the cleanliness of the equipment and its smooth operation. This process not only improves cleaning efficiency but also ensures a clean working environment, contributing to the long-term stable operation of the equipment.

[0044] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A tensile device, characterized in that, Includes a fixing plate (1), and a movable tensile device (2) is provided at the bottom of the fixing plate (1); The movable tensile device (2) includes an upper embedded plate (21), the bottom of which is fixedly connected to the top of a fixed plate (1). An external hexagonal anchor bolt (22) is connected through the bottom of the upper embedded plate (21). An embedded sleeve (23) is fixedly connected to the top of the upper embedded plate (21). A fixed seat (24) is fixedly connected to the bottom of the upper embedded plate (21). A fastener (25) is sleeved on the bottom of the fixed seat (24). The bottom of the fastener (25) is fixedly connected with a fastener connecting bolt (26), the inner side of the fastener (25) is slidably connected with a guide rail (28), the bottom of the guide rail (28) is fixedly connected with a bolt (29), the bottom of the guide rail (28) is connected with a lower connecting plate (210) by bolt (29), the bottom of the lower connecting plate (210) is fixedly connected with a pre-embedded plate (211) by bolt (29), and one end of the pre-embedded sleeve (23) is fixedly connected with an anchor bar (212).

2. The tensile device according to claim 1, characterized in that, A butterfly spring (27) is fixedly connected to the bottom of the fixed base (24), and one end of the butterfly spring (27) is fixedly connected to the top of the fastener (25).

3. The tensile device according to claim 2, characterized in that, The top of the upper embedded plate (21) is provided with a plurality of external hexagonal anchor bolts (22), and the plurality of external hexagonal anchor bolts (22) are arranged in an array along the transverse axis of the upper embedded plate (21).

4. The tensile device according to claim 3, characterized in that, Multiple pre-embedded sleeves (23) are provided, and multiple pre-embedded sleeves (23) correspond to multiple external hexagonal anchor bolts (22).

5. A tensile device according to claim 4, characterized in that, There are two fastener connecting bolts (26), and the two fastener connecting bolts (26) are symmetrical about the longitudinal axis of the fastener (25).

6. The tensile device according to claim 5, characterized in that, Two butterfly springs (27) are provided, and the two butterfly springs (27) are symmetrical about the longitudinal axis of the fastener (25).

7. A tensile device according to claim 6, characterized in that, The fastener connecting bolt (26) is located on the inner side of the butterfly spring (27), and the bottom of the embedded plate (211) is also provided with an embedded sleeve (23).

8. A tensile device according to claim 7, characterized in that, The embedded sleeves (23) on the embedded plate (211) are also provided in multiple ways, and the embedded sleeves (23) on the embedded plate (211) are arranged in an array along the horizontal axis of the embedded plate (211).

9. A tensile device according to claim 8, characterized in that, A cleaning device (3) is provided on the side of the guide rail (28). The cleaning device (3) includes a lower arc shovel (31). The side of the lower arc shovel (31) is fixedly connected to the side of the guide rail (28). A fixing frame (32) is bolted to the side of the fastener (25). A collection box (33) is fixedly connected to the bottom of the fixing frame (32).

10. A tensile device according to claim 9, characterized in that, The inner side of the fastener (25) is located on the displacement trajectory of the lower arc shovel (31), and the top of the collection box (33) is located on the displacement trajectory of the lower arc shovel (31). There are two lower arc shovels (31), collection boxes (33), and fixing frames (32). The two lower arc shovels (31) are respectively located on both sides of the guide rail (28), and the two collection boxes (33) and fixing frames (32) are respectively located on both sides of the fastener (25).