Carbon fiber reinforced resin based water barrier curtain interconnection clamp holder device
By using carbon fiber reinforced resin-based bridge-type plates and claw plate assemblies, the service life problem caused by the metal block matrix is solved, and the durability and strength of the waterproof curtain connection clamp are improved, making it suitable for deep-water environments in hydropower stations.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG YOUYOU NEW MATERIALS TECHNOLOGY CO LTD
- Filing Date
- 2025-04-28
- Publication Date
- 2026-06-26
Smart Images

Figure CN224412442U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a clamping device for interconnecting waterproof curtains, and more particularly to a clamping device for interconnecting waterproof curtains based on carbon fiber reinforced resin. Background Technology
[0002] Waterproof curtains are used to prevent cold water from flowing down the bottom of a hydroelectric power station reservoir, effectively improving the aquatic ecological environment downstream. The edges of the waterproof curtains need to be interconnected to form a waterproof wall, which is then installed in deep water 200 to 300 meters from the generator units. Therefore, the interconnection and clamping of waterproof curtains is an important hydroelectric component. Currently, existing waterproof curtain interconnection and clamping systems use metal blocks as the base, which, due to the limitations of the operating conditions at the bottom of the reservoir, affects the service life of the interconnection and clamping systems.
[0003] This invention, through its technical feature of using bridge-shaped plates made of carbon fiber reinforced resin matrix as upper and lower clamps, effectively explores and studies the technical problem of using metal blocks as the base for manufacturing upper and lower clamps at the technical level.
[0004] The statements herein provide only background information related to this utility model and do not necessarily constitute prior art. Based on the technical disclosure provided by the applicant on March 20, 2025, which addresses practical technical problems encountered during the work process, and the existing technical problems, technical features, and technical effects in similar patent documents and background information obtained through retrieval, the technical solution of this invention is proposed. Summary of the Invention
[0005] The subject of this utility model is a clamping device for interconnecting water-resistant curtains based on carbon fiber reinforced resin.
[0006] In order to overcome the above-mentioned technical shortcomings, the purpose of this utility model is to provide a waterproof curtain interconnection clamping device based on carbon fiber reinforced resin matrix, thereby extending the service life of the waterproof curtain interconnection clamping device.
[0007] To achieve the above objectives, the technical solution adopted by this utility model is as follows: it includes a central seat disposed between the gaps between two adjacent waterproof curtains and a claw plate assembly disposed on the central seat.
[0008] The design incorporates a central base and claw plate assembly. The central base provides support for the claw plate assembly on both sides, while the claw plate assembly clamps and connects the waterproof curtain. This design allows for the use of bridge-shaped plates made of carbon fiber reinforced resin as upper and lower clamps, solving the technical problem of using metal blocks as the base for the upper and lower clamps. As a result, the service life of the clamping bases for connecting the waterproof curtains is extended.
[0009] This utility model is designed to connect the center seat and the claw plate assembly by using a bridge-shaped plate made of carbon fiber reinforced resin matrix as the upper and lower clamps.
[0010] This utility model is designed to connect the claw plate assembly to the center seat in a way that clamps and connects the waterproof curtain.
[0011] The present invention is designed such that the claw plate assembly includes a first claw plate and a second claw plate.
[0012] The technical effects of the above four technical solutions are: highlighting the technical characteristics of using bridge-shaped plates made of carbon fiber reinforced resin matrix as upper and lower clamps, and introducing their application in the technical field of interconnected clamping devices for waterproof curtains based on carbon fiber reinforced resin matrix.
[0013] This utility model is designed to include a first accessory device, which is disposed on the center seat and the claw plate assembly. The first accessory device is configured as an end bridge bar.
[0014] This utility model is designed to include a second accessory device, which is disposed between the center seat and the claw plate assembly. The second accessory device is configured to include a first intermediate bridge bar and a second intermediate bridge bar.
[0015] The technical effect of the above two technical solutions is that they enable the integrated installation of other components and expand the technical effect of this utility model.
[0016] The present invention comprises a first claw plate and a second claw plate respectively provided on the center seat, an end bridge strip provided on the center seat, the first claw plate and the second claw plate, and a first intermediate bridge strip and a second intermediate bridge strip respectively provided between the center seat and the first claw plate and the second claw plate.
[0017] The technical effect of the above technical solution is that the basic technical solution of this utility model is formed by the center seat, the first claw plate, the second claw plate, the end bridge bar, the first intermediate bridge bar and the second intermediate bridge bar, which solves the technical problem of this utility model.
[0018] This utility model is designed with a receiving hole in the seat of the center seat, and the right side of the seat is connected to the inner end face of the first claw plate, the left side of the seat is connected to the inner end face of the second claw plate, and the outer side of the upper end face of the seat is connected to the end bridge bar, the upper part of the right side of the seat is connected to the inner end face of the first intermediate bridge bar, and the upper part of the left side of the seat is connected to the inner end face of the second intermediate bridge bar. The receiving hole is connected to the screw located on the upper and lower center seats, and the outer end face of the seat is respectively connected to the screw flange located on the upper and lower center seats and the inner end face of the nut located on the upper and lower center seats in contact.
[0019] The present invention is designed such that the seat is a rectangular block of carbon fiber reinforced resin and the receiving holes are pores, which are arranged at intervals along the longitudinal center line of the seat.
[0020] The technical effect of the above two solutions is that they enable the core block to serve as a support.
[0021] This utility model is designed such that the first claw plate and the second claw plate are respectively configured to include plate part I, plate part II and tooth part, and the inner end face of plate part II is configured to be connected to the inner end face of the tooth part. The inner side face of plate part I is configured to be connected to one side face of plate part II and the other side face of plate part II is configured to be connected to the center seat. The outer side of the outer end face of plate part I and the edge of the outer end face of plate part II are respectively configured to be connected to the end bridge strip. The middle of the outer end face of plate part I and the middle of the outer end face of plate part II on the first claw plate are respectively configured to be connected to the first intermediate bridge strip. The middle of the outer end face of plate part I and the middle of the outer end face of plate part II on the second claw plate are respectively configured to be connected to the second intermediate bridge strip. Plate part II is configured to be connected to the edge binding rope on the waterproof curtain in a receiving manner. The outer end face of the tooth part is configured to be connected to the edge binding rope on the waterproof curtain in a contact manner. The inner end face of plate part I is configured to be connected to the edge of the waterproof curtain in a contact manner.
[0022] This utility model is designed such that plate part I is a flat sheet made of carbon fiber reinforced resin and plate part II is a C-shaped sheet made of carbon fiber reinforced resin, and toothed part is a trapezoidal strip and the toothed part is arranged at intervals along the outline of plate part II.
[0023] The technical effect of the above two solutions is that they enable the extended plate to serve as a clamping part.
[0024] This utility model is designed such that the end bridge bar is a C-shaped rectangular rod made of carbon fiber reinforced resin, and the middle of the inner end face of the end bridge bar is connected to the center seat. One side of the inner end face of the end bridge bar is connected to the first claw plate, and the other side of the inner end face of the end bridge bar is connected to the second claw plate.
[0025] The technical effect of the above solution is that it enables the end reinforcement connection of the entire pole.
[0026] The present invention is designed such that the first intermediate bridge bar is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the inner side of the first intermediate bridge bar is configured to be connected to the center seat, and the inner end face and the outer side face of the first intermediate bridge bar are respectively configured to be connected to the first claw plate.
[0027] The present invention is designed such that the second intermediate bridge bar is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the inner side of the second intermediate bridge bar is configured to be connected to the center seat. The inner end face of the second intermediate bridge bar and the outer side face of the first intermediate bridge bar are respectively configured to be connected to the second claw plate.
[0028] The technical effect of the above two solutions is that they enable intermediate reinforcement connection of the split rods.
[0029] The present invention is designed such that the center seat, the first claw plate and the second claw plate are arranged to be connected in a bifurcated manner, and the center seat, the first claw plate and the second claw plate are arranged to be connected to the end bridge strip, the first intermediate bridge strip and the second intermediate bridge strip in a manner connected ...
[0030] This utility model is designed such that the center line of the center seat, the center line of the first claw plate, the center line of the second claw plate, the center line of the first intermediate bridge bar, and the center line of the second intermediate bridge bar are arranged on the same straight line, and the two end bridge bars are respectively arranged on the center seat, the first claw plate, and the second claw plate, and the plate part II is arranged to be connected to the seat part.
[0031] In this technical solution, the center seat is the basic component and an essential technical feature of this utility model. The first claw plate, the second claw plate, the end bridge bar, the first intermediate bridge bar, and the second intermediate bridge bar are functional components and features that achieve other technical effects of this utility model. The design of the box seat, the receiving hole, plate I, plate II, and the toothed part are technical features that comply with the Patent Law and its implementing regulations.
[0032] In this technical solution, the use of a bridge-shaped plate made of carbon fiber reinforced resin as the upper and lower clamps is achieved by a claw plate assembly.
[0033] In this technical solution, the use of bridge-shaped plates made of carbon fiber reinforced resin as the center seat and claw plate assembly of the upper and lower clamps is an important technical feature. In the technical field of interconnected clamping devices for waterproof curtains based on carbon fiber reinforced resin, this solution is novel, inventive and practical. The terminology in this technical solution can be explained and understood using patent literature in this technical field. Attached Figure Description
[0034] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0035] Figure 1 This is a schematic diagram of one of the first embodiments of the present utility model.
[0036] Figure 2 for Figure 1 The bottom view,
[0037] Figure 3 for Figure 1 Top view,
[0038] Figure 4 for Figure 1 The right view,
[0039] Figure 5 This diagram shows the connection relationship between the center seat 1, the first claw plate 2, and the second claw plate 3.
[0040] Center seat-1, first claw plate-2, second claw plate-3, end bridge bar-4, first intermediate bridge bar-5, second intermediate bridge bar-6, seat part-11, receiving hole body-12, plate part I-21, plate part II-22, tooth part-23. Detailed Implementation
[0041] According to the examination guidelines, terms such as “having,” “comprising,” and “including” used in this invention should be understood as not dispensing the presence or addition of one or more other elements or combinations thereof.
[0042] In the description of this utility model, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and 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, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0043] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of 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.
[0044] Furthermore, the technical features involved in the different embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other. In addition, unless otherwise specified, the equipment and materials used in the following embodiments are commercially available. Unless otherwise specified, please make improvements according to conventional methods in the field.
[0045] 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.
[0046] Figure 1 As one of the first embodiments of this utility model, this embodiment is described in detail with reference to the accompanying drawings. It includes a center seat 1, a first claw plate 2, a second claw plate 3, an end bridge bar 4, a first intermediate bridge bar 5, and a second intermediate bridge bar 6. The first claw plate 2 and the second claw plate 3 are respectively disposed on the center seat 1. The end bridge bar 4 is disposed on the center seat 1, the first claw plate 2, and the second claw plate 3. The first intermediate bridge bar 5 and the second intermediate bridge bar 6 are respectively disposed between the center seat 1 and the first claw plate 2 and the second claw plate 3.
[0047] The second embodiment of the present invention will be described in detail with reference to the accompanying drawings.
[0048] In this embodiment, a receiving hole 12 is provided in the seat portion 11 of the center seat 1, and the right side of the seat portion 11 is configured to be connected to the inner end face of the first claw plate 2, the left side of the seat portion 11 is configured to be connected to the inner end face of the second claw plate 3, and the outer side of the upper end face of the seat portion 11 is configured to be connected to the end bridge bar 4, the upper part of the right side of the seat portion 11 is configured to be connected to the inner end face of the first intermediate bridge bar 5, and the upper part of the left side of the seat portion 11 is configured to be connected to the inner end face of the second intermediate bridge bar 6. The receiving hole 12 is configured to be connected to the screw located on the upper and lower center seats 1, and the outer end face of the seat portion 11 is configured to be in contact with the screw flange located on the upper and lower center seats 1 and the inner end face of the nut located on the upper and lower center seats 1, respectively.
[0049] The center seat 1 forms a support connection point for the first claw plate 2, the second claw plate 3, the end bridge bar 4, the first intermediate bridge bar 5, and the second intermediate bridge bar 6. The seat part 11 realizes the connection with the first claw plate 2, the second claw plate 3, the end bridge bar 4, the first intermediate bridge bar 5, and the second intermediate bridge bar 6. The receiving hole 12 realizes the connection with the screw located on the upper and lower center seats 1. Its technical purpose is to serve as a support carrier for the first claw plate 2, the second claw plate 3, the end bridge bar 4, the first intermediate bridge bar 5, and the second intermediate bridge bar 6.
[0050] In this embodiment, the seat 11 is configured as a carbon fiber reinforced resin-based rectangular block and the receiving hole 12 is configured as a hole, and the receiving hole 12 is configured to be arranged at intervals along the longitudinal center line of the seat 11.
[0051] Its technical objective is to achieve block support for the first claw plate 2, the second claw plate 3, the end bridge bar 4, the first intermediate bridge bar 5, and the second intermediate bridge bar 6.
[0052] In this embodiment, the first claw plate 2 and the second claw plate 3 are respectively configured to include a plate portion I 21, a plate portion II 22, and a tooth portion 23. The inner end face of the plate portion II 22 is configured to be connected to the inner end face of the tooth portion 23. The inner side face of the plate portion I 21 is configured to be connected to one side face of the plate portion II 22, and the other side face of the plate portion II 22 is configured to be connected to the center seat 1. The outer side of the outer end face of the plate portion I 21 and the edge of the outer end face of the plate portion II 22 are respectively configured to be connected to the end bridge bar 4 and located on the first claw plate 2. The middle of the outer end face of plate part I 21 and the middle of the outer end face of plate part II 22 are respectively configured to be connected to the first intermediate bridge strip 5. The middle of the outer end face of plate part I 21 and the middle of the outer end face of plate part II 22 on the second claw plate 3 are respectively configured to be connected to the second intermediate bridge strip 6. Plate part II 22 is configured to be connected to the edge binding rope on the waterproof curtain in a receiving manner. The outer end face of tooth part 23 is configured to be connected to the edge binding rope on the waterproof curtain in a contact manner. The inner end face of plate part I 21 is configured to be connected to the edge of the waterproof curtain in a contact manner.
[0053] The first claw plate 2 and the second claw plate 3 form a support connection point for the center seat 1, the end bridge bar 4, the first intermediate bridge bar 5 and the second intermediate bridge bar 6. The plate part II 22 realizes the connection with the center seat 1, the plate part I 21 and the plate part II 22 realize the connection with the end bridge bar 4, the connection with the first intermediate bridge bar 5, and the connection with the second intermediate bridge bar 6. The tooth part 23 realizes the connection with the binding rope located on the waterproof curtain. Its technical purpose is to serve as a component for connecting adjacent waterproof curtains.
[0054] In this embodiment, plate portion I 21 is configured as a flat sheet of carbon fiber reinforced resin and plate portion II 22 is configured as a C-shaped sheet of carbon fiber reinforced resin. Tooth portion 23 is configured as a trapezoidal strip and is arranged at intervals along the outline of plate portion II 22.
[0055] Its technical purpose is to achieve clamping and connection between adjacent waterproof curtains.
[0056] In this embodiment, the end bridge bar 4 is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the middle of the inner end face of the end bridge bar 4 is configured to be connected to the center seat 1. One side of the inner end face of the end bridge bar 4 is configured to be connected to the first claw plate 2, and the other side of the inner end face of the end bridge bar 4 is configured to be connected to the second claw plate 3.
[0057] The end bridge bar 4 forms a support connection point for the center seat 1, the first claw plate 2, and the second claw plate 3. The end bridge bar 4 realizes the connection with the center seat 1, the first claw plate 2, and the second claw plate 3. Its technical purpose is to serve as a component for reinforcing the connection between the center seat 1 and the first claw plate 2 and the second claw plate 3.
[0058] In this embodiment, the first intermediate bridge bar 5 is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the inner side of the first intermediate bridge bar 5 is configured to be connected to the center seat 1. The inner end face and the outer side face of the first intermediate bridge bar 5 are respectively configured to be connected to the first claw plate 2.
[0059] The first intermediate bridge bar 5 forms a support connection point for the center seat 1 and the first claw plate 2. The first intermediate bridge bar 5 realizes the connection with the center seat 1 and the first claw plate 2. Its technical purpose is to serve as a component for reinforcing the connection between the center seat 1 and the first claw plate 2.
[0060] In this embodiment, the second intermediate bridge bar 6 is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the inner side of the second intermediate bridge bar 6 is configured to be connected to the center seat 1. The inner end face of the second intermediate bridge bar 6 and the outer side face of the first intermediate bridge bar 5 are respectively configured to be connected to the second claw plate 3.
[0061] The second intermediate bridge bar 6 forms a support connection point for the center seat 1 and the second claw plate 3. The second intermediate bridge bar 6 realizes the connection with the center seat 1 and the connection with the second claw plate 3. Its technical purpose is to serve as a component for reinforcing the connection between the center seat 1 and the second claw plate 3.
[0062] In this embodiment, the center seat 1, the first claw plate 2, and the second claw plate 3 are arranged to be connected in a bifurcated manner, and the center seat 1, the first claw plate 2, and the second claw plate 3 are arranged to be connected to the end bridge strip 4, the first intermediate bridge strip 5, and the second intermediate bridge strip 6 in a manner connected ...
[0063] The method of use in this embodiment is as follows: Lay the waterproof curtain flat on the construction ground, place the base 11 into the gap between two adjacent waterproof curtains, place the edging rope on the waterproof curtain onto the inner end face of the plate part II 22, make the outer end face of the toothed part 23 contact the edging rope on the waterproof curtain, make the inner end face of the plate part I 21 contact the edge of the waterproof curtain, install the screw on the upper and lower center seats 1 into the receiving hole 12, make the nut on the upper and lower center seats 1 rotate on the screw on the upper and lower center seats 1, make the screw flange on the upper and lower center seats 1 and the inner end face of the nut on the upper and lower center seats 1 act on the outer end face of the base 11 respectively, make the inner end face of the plate part I 21 act on the edge of the waterproof curtain, make the toothed part 23 act on the edging rope on the waterproof curtain, and connect the two waterproof curtains together through the upper and lower center seats 1.
[0064] In verifying this utility model, the inventors abandoned the existing technical features that all use metal blocks as the base for making the upper and lower clamps. They first proposed a technical feature suitable for using bridge-shaped plates made of carbon fiber reinforced resin as the upper and lower clamps, resulting in the first unexpected technical effect: using carbon fiber reinforced resin as the raw material, an integrated structure of the clamping seats for interconnecting the waterproof curtains was achieved, improving the interconnection effect of the waterproof curtains. The second unexpected technical effect: using carbon fiber reinforced resin as the raw material eliminated the influencing factors of the metal blocks on the reservoir, keeping the reservoir environment environmentally friendly. The third unexpected technical effect: the clamping of the waterproof curtains was achieved by the central seat 1, the first claw plate 2, and the second claw plate 3, increasing... To achieve the clamping effect with the waterproof curtain, a fourth unexpected technical effect was obtained: the end bridge strip 4 was used to connect the center seat 1, the first claw plate 2, and the second claw plate 3 throughout, improving the connection strength between the center seat 1, the first claw plate 2, and the second claw plate 3. A fifth unexpected technical effect was obtained: the first intermediate bridge strip 5 and the second intermediate bridge strip 6 were used to connect the center seat 1 and the first claw plate 2 and the second claw plate 3 separately, improving the connection strength between the center seat 1 and the first claw plate 2 and the second claw plate 3. A sixth unexpected technical effect was obtained: the connection between the plate part I 21, the plate part II 22, and the toothed part 23 to the waterproof curtain was achieved, creating an Ω-shaped clamping opening and a point-to-surface sinking effect on the waterproof curtain, increasing the friction force on the waterproof curtain and preventing the waterproof curtain from shifting.
[0065] In the second embodiment of this utility model, the center seat 1 and the claw plate assembly are connected to each other in a manner suitable for using a bridge-shaped plate made of carbon fiber reinforced resin matrix as the upper and lower clamps.
[0066] In this embodiment, the claw plate assembly is connected to the center seat 1 in a manner that clamps and connects the waterproof curtain.
[0067] In this embodiment, the claw plate assembly is configured to include a first claw plate 2 and a second claw plate 3.
[0068] In this embodiment, a first accessory device is also included and is disposed on the center seat 1 and the claw plate assembly. The first accessory device is configured as an end bridge bar 4.
[0069] In this embodiment, a second accessory device is also included and is disposed between the center seat 1 and the claw plate assembly. The second accessory device is configured to include a first intermediate bridge bar 5 and a second intermediate bridge bar 6.
[0070] The second embodiment of this utility model is based on the first embodiment.
[0071] This utility model has the following features:
[0072] 1. Due to the design of the central seat 1 and the claw plate assembly, the claw plate assembly is supported on both sides through the central seat 1, and the waterproof curtain is clamped and connected through the claw plate assembly. It is suitable to use bridge-shaped plates made of carbon fiber reinforced resin as upper and lower clamps, which solves the technical problem of using metal blocks as the base for making upper and lower clamps. Therefore, the service life of the clamping base for connecting the waterproof curtains is extended.
[0073] 2. Due to the design of the first claw plate 2 and the second claw plate 3, symmetrical clamping parts are set on the center seat 1.
[0074] 3. Due to the design of the end bridge bar 4, the center seat 1, the first claw plate 2 and the second claw plate 3 are connected with overall end reinforcement.
[0075] 4. Due to the design of the first intermediate bridge bar 5 and the second intermediate bridge bar 6, a reinforced connection is achieved between the center seat 1 and the first claw plate 2 and the second claw plate 3.
[0076] 5. Because the design limits the numerical range of the structural shape, the numerical range is a technical feature in the technical solution of this utility model, and is not a technical feature obtained by formula calculation or a limited number of experiments. The experiment shows that the technical feature of the numerical range has achieved very good technical effect.
[0077] 6. Due to the design of the technical features of this utility model, and the combined effect of the individual technical features and the combination of the features, experiments have shown that the performance indicators of this utility model are at least 1.7 times that of the existing performance indicators, and it has been evaluated that it has great market value.
[0078] Other technical features that are suitable for using bridge-shaped plates made of carbon fiber reinforced resin as the central seat 1 and claw plate assembly of the upper and lower clamps are also embodiments of this utility model. Furthermore, the technical features of the above embodiments can be combined in any way. In order to meet the requirements of the Patent Law, the Patent Implementation Regulations and the Examination Guidelines, all possible combinations of the technical features in the above embodiments will not be described.
[0079] Therefore, in the technical field of interconnected clamping devices for waterproof curtains based on carbon fiber reinforced resin, any technical content that includes a central seat 1 disposed between the gaps of two adjacent waterproof curtains and a claw plate assembly disposed on the central seat 1 is within the protection scope of this utility model.
Claims
1. A clamping device for interconnecting waterproof curtains based on carbon fiber reinforced resin matrix, characterized in that: It includes a center seat (1) positioned between the gaps between two adjacent waterproof curtains, and a claw plate assembly positioned on the center seat (1). The claw plate assembly is configured to include a first claw plate (2) and a second claw plate (3). It also includes a first accessory device and is disposed on the center seat (1) and the claw plate assembly. The first accessory device is configured as an end bridge bar (4). It also includes a second accessory device disposed between the center seat (1) and the claw plate assembly. The second accessory device is configured to include a first intermediate bridge bar (5) and a second intermediate bridge bar (6). A first claw plate (2) and a second claw plate (3) are respectively provided on the center seat (1). An end bridge strip (4) is provided on the center seat (1), the first claw plate (2) and the second claw plate (3). A first intermediate bridge strip (5) and a second intermediate bridge strip (6) are respectively provided between the center seat (1) and the first claw plate (2) and the second claw plate (3).
2. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 1, characterized in that: The center seat (1) and the claw plate assembly are connected to each other in a manner that uses a bridge-shaped plate made of carbon fiber reinforced resin as the upper and lower clamps.
3. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 2, characterized in that: Connect the claw plate assembly to the center seat (1) in the manner of clamping and connecting the waterproof curtain.
4. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 1, characterized in that: A receiving hole (12) is provided in the seat portion (11) of the center seat (1), and the right side of the seat portion (11) is configured to be connected to the inner end face of the first claw plate (2), the left side of the seat portion (11) is configured to be connected to the inner end face of the second claw plate (3), and the outer side of the upper end face of the seat portion (11) is configured to be connected to the end bridge bar (4), the upper part of the right side of the seat portion (11) is configured to be connected to the inner end face of the first intermediate bridge bar (5), and the upper part of the left side of the seat portion (11) is configured to be connected to the inner end face of the second intermediate bridge bar (6). The receiving hole (12) is configured to be connected to the screw located on the upper and lower center seats (1), and the outer end face of the seat portion (11) is configured to be in contact with the screw flange located on the upper and lower center seats (1) and the inner end face of the nut located on the upper and lower center seats (1), respectively. Alternatively, the seat (11) is configured as a rectangular block of carbon fiber reinforced resin and the receiving holes (12) are configured as holes, with the receiving holes (12) arranged at intervals along the longitudinal center line of the seat (11).
5. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 1, characterized in that: The first claw plate (2) and the second claw plate (3) are respectively configured to include plate part I (21), plate part II (22) and tooth part (23), and the inner end face of plate part II (22) is configured to be connected to the inner end face of tooth part (23), the inner side face of plate part I (21) is configured to be connected to one side face of plate part II (22) and the other side face of plate part II (22) is configured to be connected to the center seat (1), the outer side of the outer end face of plate part I (21) and the edge of the outer end face of plate part II (22) are respectively configured to be connected to the end bridge bar (4) and located on the first claw plate (2). The middle of the outer end face of the upper plate part I (21) and the middle of the outer end face of the plate part II (22) are respectively connected to the first intermediate bridge strip (5). The middle of the outer end face of the upper plate part I (21) and the middle of the outer end face of the plate part II (22) on the second claw plate (3) are respectively connected to the second intermediate bridge strip (6). The plate part II (22) is connected to the edge binding rope on the waterproof curtain in a receiving manner. The outer end face of the toothed part (23) is connected to the edge binding rope on the waterproof curtain in a contact manner. The inner end face of the plate part I (21) is connected to the edge of the waterproof curtain in a contact manner. Alternatively, plate part I (21) is configured as a flat sheet of carbon fiber reinforced resin and plate part II (22) is configured as a C-shaped sheet of carbon fiber reinforced resin, and tooth part (23) is configured as a trapezoidal strip and tooth part (23) is configured to be arranged at intervals along the outline of plate part II (22).
6. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 1, characterized in that: The end bridge bar (4) is configured as a carbon fiber reinforced resin C-shaped rectangular rod and the middle of the inner end face of the end bridge bar (4) is configured to be connected to the center seat (1). One side of the inner end face of the end bridge bar (4) is configured to be connected to the first claw plate (2) and the other side of the inner end face of the end bridge bar (4) is configured to be connected to the second claw plate (3).
7. The water-resistant curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to claim 1, characterized in that: The first intermediate bridge bar (5) is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod, and the inner side of the first intermediate bridge bar (5) is configured to be connected to the center seat (1). The inner end face and the outer side face of the first intermediate bridge bar (5) are respectively configured to be connected to the first claw plate (2). Alternatively, the second intermediate bridge bar (6) is configured as a carbon fiber reinforced resin-based C-shaped rectangular rod and the inner side of the second intermediate bridge bar (6) is configured to be connected to the center seat (1), and the inner end face of the second intermediate bridge bar (6) and the outer side face of the first intermediate bridge bar (5) are respectively configured to be connected to the second claw plate (3).
8. The waterproof curtain interconnection clamping device based on carbon fiber reinforced resin matrix according to any one of claims 1 to 7, characterized in that: The center seat (1), the first claw plate (2), and the second claw plate (3) are arranged to be connected on the side of the branch, and the center seat (1), the first claw plate (2), and the second claw plate (3) are arranged to be connected to the end bridge strip (4), the first intermediate bridge strip (5), and the second intermediate bridge strip (6) in the manner of intermediate ribs. Alternatively, the center line of the center seat (1), the center line of the first claw plate (2), the center line of the second claw plate (3), the center line of the first intermediate bridge bar (5), and the center line of the second intermediate bridge bar (6) are set on the same straight line, and the two end bridge bars (4) are respectively set on the center seat (1), the first claw plate (2), and the second claw plate (3), and the plate part II (22) is set to be connected to the seat part (11).