CN215721539U - Locking clamp that takes off of high pressure line, connection structure and conveyer pipe structure - Google Patents

Abstract

The utility model provides a high-pressure pipeline anti-loosening clamp, a connecting structure and a conveying pipe structure, and relates to the technical field of clamps. This locking clamp that takes off of high pressure line configures to and assembles in high pressure line, and high pressure line includes hose and two tubular structure, and the both ends of hose are established respectively on two tubular structure, and the locking clamp that takes off of high pressure line includes first clamp, second clamp and connecting piece. First clamp and second clamp are configured to establish respectively at the both ends of hose, and first clamp and second clamp all are configured to press from both sides tight hose. The both ends of connecting piece are connected respectively in first clamp and second clamp. The utility model also provides a connecting structure and a conveying pipe structure, which both use the anti-loosening clamp for the high-pressure pipeline. The anti-loosening clamp, the connecting structure and the conveying pipe structure for the high-pressure pipeline can improve reliability, reduce maintenance difficulty and save cost.

Description

Locking clamp that takes off of high pressure line, connection structure and conveyer pipe structure

Technical Field

The utility model relates to the technical field of clamps, in particular to a high-pressure pipeline anti-loosening clamp, a connecting structure and a conveying pipe structure.

Background

At present, the pipeline locking modes are generally divided into three modes, one mode is that flanges are arranged at the connecting ends of high-pressure metal pipes, and the flanges are connected together after being sealed by sealing gaskets; the other type is that two high-pressure metal pipes are in transition connection through a rubber pipe, and two ends of the rubber pipe are fixed by clamps respectively. In the first case, the high-pressure metal pipes at two ends are sealed by the flanges, so that the leakage risk can be greatly reduced, but when the pipelines are connected, the pipeline length and the positions of the flange holes have high processing technological requirements, and in order to realize the connection, accurate calculation or on-site welding of the flanges is required, so that the design difficulty is increased, and the construction time, the cost and the operation difficulty are wasted. The second condition is connected rapidly, swiftly for ordinary pipeline can satisfy the demand, if in the pipeline when being high pressure, high temperature and the great gas of impact nature, because high temperature makes the rubber tube become soft, and high pressure, high impact constantly strike the rubber tube, the rubber tube can constantly promote the clamp and remove toward both ends, when using for a long time, the probability greatly increased that the rubber tube was taken off in the clamp pine. Meanwhile, the first condition is only used for the long-distance conveying of large pipelines, and the requirement for small-sized multi-batch production products cannot be met. The second condition can not satisfy the scenes of high pressure, high temperature and high impact, and the clamp is easy to fall off, thereby affecting the performance of the product. The two situations have great defects, the reliability of the system is seriously reduced, frequent maintenance is needed, a large amount of manpower and material resources are consumed, and the later maintenance and repair cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-pressure pipeline anti-loosening clamp which can improve reliability, reduce maintenance difficulty and save cost.

The utility model also aims to provide a connecting structure which can improve the reliability, reduce the maintenance difficulty and save the cost.

The utility model also aims to provide a conveying pipe structure which can improve the reliability, reduce the maintenance difficulty and save the cost.

Embodiments of the utility model may be implemented as follows:

the embodiment of the utility model provides a high-pressure pipeline anti-loosening clamp which is configured to be assembled on a high-pressure pipeline, wherein the high-pressure pipeline comprises a hose and two tubular structures, two ends of the hose are respectively sleeved on the two tubular structures, and the high-pressure pipeline anti-loosening clamp comprises a first clamp, a second clamp and a connecting piece;

the first clamp and the second clamp are configured to be sleeved at two ends of the hose respectively, and the first clamp and the second clamp are both configured to clamp the hose;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

Compared with the prior art, the anti-loosening hoop for the high-pressure pipeline provided by the utility model has the beneficial effects that:

under the condition that the high-pressure pipeline anti-loosening hoop is assembled on a high-pressure pipeline, the connection stability of one end of the hose and one tubular structure can be reinforced through the first hoop, and the connection stability of the other end of the hose and the other tubular structure can be reinforced through the second hoop; simultaneously, ensure the relative position stability between first clamp and the second clamp through the connecting piece, make the relative position of first clamp and second clamp stable from this, receive the effort at two tubular structure and make under the condition that two tubular structure are close to each other or keep away from each other, the effort can be shared by the connecting piece to can prevent that first clamp and second clamp are close to relatively or keep away from relatively, thereby can prevent that the hose from coming loose from two tubular structure, thereby improved high pressure pipeline's connection stability. Simultaneously, can easily dismantle this first clamp, second clamp and connecting piece to reduce the degree of difficulty that this high-pressure line maintained, improve maintenance efficiency, reduce cost. In addition, the anti-loosening clamp for the high-pressure pipeline is simple in structure, easy to achieve and capable of reducing manufacturing cost and assembling cost. In conclusion, the anti-loosening clamp for the high-pressure pipeline provided by the utility model can achieve the purposes of improving the reliability, reducing the maintenance difficulty and saving the cost.

Optionally, the connector comprises a first connector, a second connector and a fastener;

the first connecting part is connected to the first clamp, and the second connecting part is connected to the second clamp;

the first connecting portion and the second connecting portion are detachably connected by the fastener.

Optionally, one end of the first connecting portion is connected to the first clamp, and the other end of the first connecting portion is bent to form a first matching portion;

the second connecting part is connected to the second hoop, and the other end of the second connecting part is bent to form a second matching part;

the fastener passes through the first mating portion and the second mating portion to detachably mate the first mating portion and the second mating portion.

Optionally, the anti-loosening clamp for the high-pressure pipeline comprises a plurality of connecting pieces, a plurality of connecting pieces are arranged along the circumferential equidistant distribution of the first clamp, and a plurality of connecting pieces are arranged along the circumferential equidistant distribution of the second clamp.

Optionally, the connector is attached to the outside of the first clip, and/or the connector is attached to the outside of the second clip.

Optionally, the first clamp comprises a first clamp sheet, a second clamp sheet and a plurality of fixing pieces; two ends of the first hoop sheet are detachably connected with two ends of the second hoop sheet through at least two fixing pieces respectively, and the first hoop sheet and the second hoop sheet jointly form a ring shape to clamp the hose;

the second clamp comprises a third clamp piece, a fourth clamp piece and a plurality of fixing pieces; the two ends of the third hoop sheet are detachably connected with the two ends of the fourth hoop sheet through at least two fixing pieces respectively, and the third hoop sheet and the fourth hoop sheet are made to jointly enclose into a ring shape to clamp the hose.

Optionally, both ends of the first hoop sheet are bent to form a first connecting sheet; both ends of the second hoop sheet are bent to form a second connecting sheet; the first connecting piece and the second connecting piece are detachably connected through the fixing piece;

and/or two end parts of the third hoop sheet are bent to form a third connecting sheet; both ends of the fourth hoop sheet are bent to form a fourth connecting sheet; the third connecting piece and the fourth connecting piece are detachably connected through the fixing piece.

Optionally, the first clamp is of an elastic structure; and/or the second clamp is of an elastic structure.

A connection structure configured to connect two tubular structures, the connection structure comprising a first clamp, a second clamp, a hose, and a connector;

two ends of the hose are configured to be respectively sleeved on the two tubular structures;

the first clamp and the second clamp are respectively sleeved at two ends of the hose pipe, and are both configured to clamp the hose;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

Compared with the prior art, the connecting structure provided by the utility model has the same beneficial effects as the anti-loosening hoop of the high-pressure pipeline, and the details are not repeated.

A conveying pipe structure comprises a high-pressure pipeline anti-loosening clamp or a connecting structure.

The high-pressure pipeline anti-loosening clamp is configured to be assembled on a high-pressure pipeline, the high-pressure pipeline comprises a hose and two tubular structures, two ends of the hose are sleeved on the two tubular structures respectively, and the high-pressure pipeline anti-loosening clamp comprises a first clamp, a second clamp and a connecting piece;

the first clamp and the second clamp are configured to be sleeved at two ends of the hose respectively, and the first clamp and the second clamp are both configured to clamp the hose;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

The connection structure is configured to connect two tubular structures, the connection structure comprising a first clamp, a second clamp, a hose and a connector;

two ends of the hose are configured to be respectively sleeved on the two tubular structures;

the first clamp and the second clamp are respectively sleeved at two ends of the hose pipe, and are both configured to clamp the hose;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

The delivery pipe structure provided by the utility model adopts the anti-loosening clamp for the high-pressure pipeline or the connecting structure, so that the beneficial effects of the delivery pipe structure relative to the prior art are the same as the beneficial effects of the anti-loosening clamp for the high-pressure pipeline and the connecting structure relative to the prior art, and the details are not repeated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a first view angle at which a high-pressure pipeline anti-loosening clamp provided in an embodiment of the present application is clamped on a high-pressure pipeline;

fig. 2 is a schematic structural view of a second perspective of the high-pressure pipe anti-loosening clamp provided in the embodiment of the present application, which is clamped on the high-pressure pipe;

fig. 3 is a schematic structural diagram of a first hoop sheet provided in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a second hoop sheet provided in the embodiments of the present application;

FIG. 5 is a schematic structural diagram of a third hoop sheet provided in the embodiments of the present application;

FIG. 6 is a schematic structural diagram of a fourth hoop sheet provided in the embodiments of the present application;

fig. 7 is a schematic structural view of a connection structure provided in a second embodiment of the present application to connect tubular structures.

Icon: 10-a high-pressure pipeline anti-loosening clamp; 11-a tubular structure; 12-a hose; 100-a first clip; 110-a first hoop sheet; 111-a first connecting tab; 120-a second hoop sheet; 121-a second connecting piece; 130-a fixture; 200-a second collar; 210-a third hoop sheet; 211-a third connection piece; 220-a fourth hoop sheet; 221-a fourth connecting piece; 300-a connector; 310-a first connection; 311-a first mating portion; 320-a second connection; 321-a second mating portion; 330-a fastener; 20-a linking structure; 400-soft tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that if the terms "upper", "lower", "inside", "outside", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which is usually placed when the utility model is used, it is only for convenience of describing the present invention and simplifying the description, but it is not necessary to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, it should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

First embodiment

Referring to fig. 1, in the embodiment of the present application, a high pressure pipeline anti-loosening clamp 10 is provided, and the high pressure pipeline anti-loosening clamp 10 is configured to be assembled in a high pressure pipeline to ensure stability of the high pressure pipeline, so as to achieve the purposes of improving reliability, reducing maintenance difficulty, and saving cost. The high-pressure pipeline can be a high-pressure inter-cooling pipeline of the diesel generator set, and can also be a high-pressure pipeline in other equipment.

Wherein the high pressure line comprises a hose 12 and two tubular structures 11. The two tubular structures 11 may refer to two high pressure metal pipes which may be configured to be suitable for the transport of high pressure, high temperature and highly viscous media. And, the hose 12 is configured to connect the two tubular structures 11 so that the two tubular structures 11 are in a communicating state. In the prior art, a flange or a rubber pipe is generally adopted to connect two high-pressure metal pipes, but the flange needs a high-precision assembly design and can only be applied to large-scale equipment; and the rubber tube connection easily causes the looseness of two high-pressure metal tubes. Therefore, in the prior art, the connection stability between the two metal pipes and the connection cost of the two high-pressure metal pipes cannot be compatible.

In order to improve above-mentioned problem, in other words, in order to improve the problem that the connection stability between two high-pressure metal pipes and the connection cost of two high-pressure metal pipes can't compromise among the prior art, provide the locking clamp 10 that takes off of high-pressure pipeline in this application embodiment, this locking clamp 10 that takes off of high-pressure pipeline can realize improving the reliability, reduces the maintenance degree of difficulty, saves the cost.

Referring to fig. 1 and 2, the anti-release clamp 10 for high-pressure pipes includes a first clamp 100, a second clamp 200, and a connecting member 300. The first and second clips 100, 200 are configured to fit over the ends of the hose 12, respectively, and the first and second clips 100, 200 are configured to grip the hose 12. In other words, in the case where the two tubular structures 11 are connected by the hose 12, for example, the two high-pressure metal pipes are connected by a rubber pipe. The first and second clips 100 and 200 can be clamped to both ends of the hose 12, respectively, so that one end of the hose 12 can be clamped by the first clip 100, and the other end of the hose 12 can be clamped by the second clip 200, thereby improving the connection stability between the hose 12 and the two tubular structures 11, and improving the sealing performance between the hose 12 and the tubular structures 11.

In addition, both ends of the connector 300 are connected to the first clip 100 and the second clip 200, respectively. Therefore, the relative position stability between the first clamp 100 and the second clamp 200 can be ensured through the connecting piece 300, so that the relative position of the first clamp 100 and the second clamp 200 is stable, and under the condition that the two tubular structures 11 are subjected to the acting force to enable the two tubular structures 11 to approach to each other or to be away from each other, the acting force can be shared by the connecting piece 300, so that the first clamp 100 and the second clamp 200 can be prevented from approaching to each other or being away from each other, the hose 12 can be prevented from loosening from the two tubular structures 11, and the connection stability of the high-pressure pipeline can be improved. Meanwhile, the first clamp 100, the second clamp 200 and the connecting piece 300 can be easily disassembled, so that the difficulty of maintaining the high-pressure pipeline is reduced, the maintenance efficiency is improved, and the cost is reduced. In addition, the anti-loosening hoop 10 for the high-pressure pipeline is simple in structure and easy to achieve, and manufacturing cost and assembly cost are reduced. In conclusion, the anti-loose clamp 10 for the high-pressure pipeline provided by the utility model can achieve the purposes of improving the reliability, reducing the maintenance difficulty and saving the cost.

For example, when a force is applied to one of the two tubular structures 11, such that the tubular structure 11 has a tendency to move away from the other tubular structure 11, the tubular structure 11 transmits the force to the connecting member 300 through the first clip 100, and the connecting member 300 transmits the force directly to the other tubular structure 11 through the second clip 200, so that the two tubular structures 11 are prevented from pulling the hose 12, the hose 12 is ensured not to be interfered by the external force, and the stability of the connection of the hose 12 to the two tubular structures 11 is ensured. In the same way, in the case that the two tubular structures 11 are subjected to a force such that the two tubular structures 11 have a tendency to move closer together, one of the tubular structures 11 transmits the force to the connecting member 300 through the first clamp 100, and the connecting member 300 transmits the force to the other tubular structure 11 through the second clamp 200, so that the hose 12 is not affected by the force, thereby ensuring that the hose 12 is stably fitted between the two tubular structures 11 and improving the connection stability of the two tubular structures 11.

Optionally, in some embodiments of the present application, the connector 300 includes a first connector 310, a second connector 320, and a fastener 330. The first connection portion 310 is connected to the first yoke 100, and the second connection portion 320 is connected to the second yoke 200; the first connection portion 310 and the second connection portion 320 are detachably connected by a fastener 330. In the assembling process, the first clamp 100 and the second clamp 200 may be assembled to both ends of the hose 12, respectively, such that the first connection portion 310 and the second connection portion 320 correspond to each other, and then the first connection portion 310 and the second connection portion 320 are connected by the fastening member 330, so that the assembling of the high-pressure pipeline anti-loose clamp 10 is completed.

It should be understood that in other embodiments of the present application, the connecting member 300 may be arranged differently, for example, the connecting member 300 may include only the first connecting portion 310, one end of the first connecting portion 310 is connected to the first band 100, and the other end of the first connecting portion 310 may be detachably connected to the second band 200 by the fastening member 330, so as to assemble the first band 100 and the second band 200. For another example, the connector 300 may include only the second connection part 320, one end of the second connection part 320 being connected to the second yoke 200, and the other end of the second connection part 320 being detachably connected to the first yoke 100, thereby achieving the assembly of the first and second yokes 100 and 200. Also for example, both ends of the connector 300 are detachably connected to the first clip 100 and the second clip 200, respectively, etc.

In some embodiments of the present application, one end of the first connection portion 310 is connected to the first yoke 100, and the other end is bent to form a first mating portion 311; the second connecting portion 320 is connected to the second yoke 200, and the other end is bent to form a second engaging portion 321. In other words, the first coupling portion 311 is formed by bending an end portion of the first connection portion 310 away from the first yoke 100, and the second coupling portion 321 is formed by bending an end portion of the second connection portion 320 away from the second yoke 200, so as to facilitate the coupling between the first connection portion 310 and the second connection portion 320. It should be noted that, when the first engagement portion 311 and the second engagement portion 321 are connected by the fastening member 330, the first engagement portion 311 and the second engagement portion 321 are attached to each other, so that the connection stability between the first engagement portion 311 and the second engagement portion 321 is improved, and the connection member 300 can improve the connection stability between the first clamp 100 and the second clamp 200.

Alternatively, wherein the fastening member 330 is a connector 300 such as a bolt, the fastening member 330 penetrates the first fitting portion 311 and the second fitting portion 321 to detachably fit the first fitting portion 311 and the second fitting portion 321; meanwhile, holes adapted to the bolts are formed in the first and second fitting portions 311 and 321, so that the bolts can pass through the holes conveniently. It should be understood that in other embodiments of the present application, the first matching portion 311 and the second matching portion 321 may be assembled with each other in other manners, for example, a latch is disposed on the first matching portion 311, and the second matching portion 321 is provided with a hook matched with the latch, so that the first matching portion 311 and the second matching portion 321 are clamped by a hook; for another example, the first engaging portion 311 is provided with a locking hole, the second engaging portion 321 is provided with a locking block, and the locking block penetrates the locking hole to be locked and engaged with the first engaging portion 311.

In order to improve the stability of the first and second clamp 100 and 200, optionally, in some embodiments of the present application, the high-pressure pipeline anti-release clamp 10 includes a plurality of connecting members 300, the plurality of connecting members 300 are equally spaced in the circumferential direction of the first clamp 100, and the plurality of connecting members 300 are equally spaced in the circumferential direction of the second clamp 200. Based on this, uniform force can be provided to the first and second clips 100 and 200 through the plurality of connectors 300, thereby ensuring that the first and second clips 100 and 200 can be stably clamped to the hose 12. In addition, in some embodiments of the present application, the plurality of connection members 300 extend in a direction parallel to the axis of the first band 100, so that the plurality of connection members 300 can provide a force to the first band 100 and the second band 200 parallel to the axis of the first band 100, and thus the stability of the first band 100 and the second band 200 can be ensured.

In addition, the connector 300 is attached to the outside of the first clip 100, and/or the connector 300 is attached to the outside of the second clip 200. Note that the outer side of the first clamp 100 indicates the side of the first clamp 100 away from the hose 12, and may also be regarded as the outer circumference of the first clamp 100; the outer side of the second clip 200 represents the side of the second clip 200 that is away from the hose 12 and may also be considered the outer circumference of the second clip 200. Of course, the connector 300 may be connected to one axial side of the first yoke 100 or one axial side of the second yoke 200. In other words, "and/or" means that one end of the connector 300 is connected to the outside of the first band 100, and the other end is connected to one side of the second band 200 in the axial direction; alternatively, one end of the connector 300 is connected to the outside of the second yoke 200, and the other end of the connector 300 is connected to one side of the first yoke 100 in the axial direction; alternatively, both ends of the connector 300 are connected to the outside of the first clip 100 and the outside of the second clip 200, respectively. Of course, the side of the first band 100 in the axial direction means the side of the first band 100 in the axial direction thereof, in other words, the side of the first band 100 adjacent to the second band 200; the side of the second band 200 in the axial direction represents a side of the second band 200 in the axial direction thereof, in other words, a side of the second band 200 adjacent to the first band 100.

Wherein, the connection of the connector 300 to the outside of the first yoke 100 can increase the contact area between the first yoke 100 and the connector 300, thereby improving the connection stability between the first yoke 100 and the connector 300; furthermore, a gap is formed between the connector 300 and the hose 12, so that the connector 300 is prevented from interfering with the clamping of the hose 12 by the first clamp 100. Similarly, the connection of the connector 300 to the outside of the second yoke 200 may increase the contact area between the second yoke 200 and the connector 300, thereby improving the connection stability between the second yoke 200 and the connector 300; furthermore, a gap is formed between the connector 300 and the hose 12, so that the connector 300 is prevented from interfering with the clamping of the hose 12 by the second clamp 200.

Referring to fig. 2, 3, 4, 5 and 6, the first band 100 includes a first band piece 110, a second band piece 120 and a plurality of fixing elements 130; the two ends of the first hoop sheet 110 are detachably connected to the two ends of the second hoop sheet 120 through at least two fixing members 130, respectively, so that the first hoop sheet 110 and the second hoop sheet 120 together form a ring shape to clamp the hose 12. The second yoke 200 includes a third yoke piece 210, a fourth yoke piece 220 and a plurality of fixing pieces 130; the two ends of the third hoop sheet 210 are detachably connected to the two ends of the fourth hoop sheet 220 through at least two fixing members 130, respectively, so that the third hoop sheet 210 and the fourth hoop sheet 220 together form a ring shape to clamp the hose 12.

The hose 12 is clamped by the joint clamping action of the first hoop sheet 110 and the second hoop sheet 120, so that the first hoop 100 can be conveniently adapted to hoses 12 with various diameters, and the universality of the high-pressure pipeline anti-loosening hoop 10 is improved. In a similar way, the joint clamping action of the third hoop sheet 210 and the fourth hoop sheet 220 clamps the pipe, which facilitates the second hoop 200 to be applied to hoses 12 with various diameters, thereby improving the universality of the anti-loose hoop 10 for high-pressure pipelines.

It should be understood that in other embodiments of the present application, the first and second clamp bands 100 and 200 may include a greater number of clamp segments, and that, in the case of hoses 12 of different diameters, an appropriate number of clamp segments may be selected to clamp the hose 12.

Optionally, both ends of the first hoop sheet 110 are bent to form a first connecting sheet 111; both ends of the second hoop sheet 120 are bent to form a second connecting sheet 121; the first connecting piece 111 and the second connecting piece 121 are detachably connected by a fixing member 130. And/or two ends of the third hoop sheet 210 are bent to form a third connecting sheet 211; both ends of the fourth hoop sheet 220 are bent to form a fourth connecting sheet 221; the third connecting piece 211 and the fourth connecting piece 221 are detachably connected by the fixing member 130.

The term "and/or" refers to that only the end of the first hoop sheet 110 and the end of the second hoop sheet 120 are bent to form the first connecting sheet 111 and the second connecting sheet 121, or only the ends of the third hoop sheet 210 and the fourth hoop sheet 220 are bent to form the third connecting sheet 211 and the fourth connecting sheet 221, or, as in the embodiment of the present application, the end of the first hoop sheet 110 is bent to form the first connecting portion 310, the end of the second hoop sheet 120 is bent to form the second connecting portion 320, the end of the third hoop sheet 210 is bent to form the third connecting portion, and the end of the fourth hoop sheet 220 is bent to form the fourth connecting portion.

Through the arrangement of the first connecting piece 111, the second connecting piece 121, the third connecting piece 211 and the fourth connecting piece 221, the first hoop sheet 110 and the second hoop sheet 120 can be conveniently detachably connected, and the third hoop sheet 210 and the fourth hoop sheet 220 can also be conveniently connected.

Alternatively, in the case where the first and second hoop sheets 110 and 120 are fitted to each other, the first and second connection pieces 111 and 121 may be attached to each other, whereby stability between the first and second hoop sheets 110 and 120 may be improved. Similarly, under the condition that the third hoop sheet 210 and the fourth hoop sheet 220 are matched with each other, the third connecting sheet 211 and the fourth connecting sheet 221 are attached to each other, so that the connection stability of the third hoop sheet 210 and the fourth hoop sheet 220 is improved. Of course, in other embodiments, in the case of a larger diameter of the tubular structure 11, a certain gap may be formed between the first connecting piece 111 and the second connecting piece 121, and similarly, a certain gap may be formed between the third connecting piece 211 and the fourth connecting piece 221.

Additionally, in some embodiments of the present application, the first clip 100 is a resilient structure; and/or the second clip 200 is of a resilient construction. Here, "and/or" indicates that only the first band 100 may be of an elastic structure, only the second band 200 may be of an elastic structure, and of course, both the first band 100 and the second band 200 may be of an elastic structure. The first clamp 100 and the second clamp 200 are both elastic structures, and both the first clamp 100 and the second clamp 200 have elasticity, so that the diameter range of the hose 12 which is allowed to be clamped by the first clamp 100 can be enlarged through the elastic deformation of the first clamp 100, and similarly, the diameter range of the hose 12 which is clamped by the second clamp 200 can be enlarged through the elastic deformation of the second clamp 200. Alternatively, the first band 100 may have an elastic structure, and the first band piece 110 and the second band piece 120 may have an elastic structure; the second yoke 200 is of an elastic structure, and the third yoke piece 210 and the fourth yoke piece 220 are of an elastic structure.

In summary, the anti-loose clamp 10 for high-pressure pipelines provided in the embodiment of the present application can reinforce the connection stability of one end of the hose 12 with one of the tubular structures 11 through the first clamp 100, and reinforce the connection stability of the other end of the hose 12 with the other tubular structure 11 through the second clamp 200; meanwhile, the relative position stability between the first clamp 100 and the second clamp 200 is ensured through the connecting member 300, so that the relative position of the first clamp 100 and the second clamp 200 is stable, and under the condition that the two tubular structures 11 are subjected to the acting force to enable the two tubular structures 11 to approach to each other or to be away from each other, the acting force can be shared by the connecting member 300, so that the first clamp 100 and the second clamp 200 can be prevented from approaching to each other or being away from each other, the hose 12 can be prevented from loosening from the two tubular structures 11, and the connection stability of the high-pressure pipeline is improved. Meanwhile, the first clamp 100, the second clamp 200 and the connecting piece 300 can be easily disassembled, so that the difficulty of maintaining the high-pressure pipeline is reduced, the maintenance efficiency is improved, and the cost is reduced. In addition, the anti-loosening hoop 10 for the high-pressure pipeline is simple in structure and easy to achieve, and manufacturing cost and assembly cost are reduced. In conclusion, the anti-loose clamp 10 for the high-pressure pipeline provided by the utility model can achieve the purposes of improving the reliability, reducing the maintenance difficulty and saving the cost.

Second embodiment

Referring to fig. 1 and 7, a connecting structure 20 configured to connect two tubular structures 11 is provided in the present embodiment. The difference between the connection structure 20 and the high-pressure line release prevention clamp 10 provided in the first embodiment is that the connection structure 20 further includes a hose 400.

Wherein, the first clamp 100 is sleeved on one end of the soft tube 400 and configured to clamp the soft tube 400; the second clamp 200 is disposed around the other end of the flexible tube 400 and configured to clamp the flexible tube 400. In other words, the flexible tube 400 can be regarded as the flexible tube 12 in the first embodiment. The rest of the arrangement is the same as the first embodiment, and is not described herein again.

Third embodiment

In the present embodiment, a conveying pipe structure (not shown) is provided, the conveying pipe structure may include a flexible pipe 12, two tubular structures 11, and a high-pressure pipeline anti-loosening clamp 10 as provided in the first embodiment, two ends of the flexible pipe 12 are respectively sleeved on the two tubular structures 11 to connect the two tubular structures 11, and a first clamp 100 and a second clamp 200 of the high-pressure pipeline anti-loosening clamp 10 are respectively sleeved on two ends of the flexible pipe 12. The conveying pipe structure can achieve the purposes of improving reliability, reducing maintenance difficulty and saving cost.

Or, the conveying pipe structure provided in this embodiment may include two tubular structures 11 and the connection structure 20 provided in the second embodiment, where the two tubular structures 11 are connected by the connection structure 20, and the connection manner is not described again, and the purposes of improving reliability, reducing maintenance difficulty, and saving cost can be achieved.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A high-pressure pipeline anti-loosening clamp is configured to be assembled on a high-pressure pipeline, the high-pressure pipeline comprises a hose and two tubular structures, two ends of the hose are sleeved on the two tubular structures respectively, and the high-pressure pipeline anti-loosening clamp is characterized by comprising a first clamp, a second clamp and a connecting piece;

the first clamp and the second clamp are configured to be sleeved at two ends of the hose respectively, and the first clamp and the second clamp are both configured to clamp the hose;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

2. The high-pressure line anti-release clamp of claim 1, wherein the connector comprises a first connector portion, a second connector portion, and a fastener;

the first connecting part is connected to the first clamp, and the second connecting part is connected to the second clamp;

the first connecting portion and the second connecting portion are detachably connected by the fastener.

3. The anti-release clamp for a high-pressure pipeline as claimed in claim 2, wherein one end of the first connecting portion is connected to the first clamp, and the other end is bent to form a first engaging portion;

the second connecting part is connected to the second hoop, and the other end of the second connecting part is bent to form a second matching part;

the fastener passes through the first mating portion and the second mating portion to detachably mate the first mating portion and the second mating portion.

4. The anti-loosening clamp for high-pressure pipelines according to claim 1, comprising a plurality of said connecting members, wherein said connecting members are distributed along the circumference of said first clamp at equal intervals, and wherein said connecting members are distributed along the circumference of said second clamp at equal intervals.

5. The anti-release clamp for high-pressure pipes according to claim 1, wherein the connecting member is connected to the outside of the first clamp and/or the connecting member is connected to the outside of the second clamp.

6. The anti-release clamp for a high-pressure pipeline as claimed in any one of claims 1 to 5, wherein the first clamp comprises a first clamp piece, a second clamp piece and a plurality of fixing pieces; two ends of the first hoop sheet are detachably connected with two ends of the second hoop sheet through at least two fixing pieces respectively, and the first hoop sheet and the second hoop sheet jointly form a ring shape to clamp the hose;

the second clamp comprises a third clamp piece, a fourth clamp piece and a plurality of fixing pieces; the two ends of the third hoop sheet are detachably connected with the two ends of the fourth hoop sheet through at least two fixing pieces respectively, and the third hoop sheet and the fourth hoop sheet are made to jointly enclose into a ring shape to clamp the hose.

7. The anti-release clamp for a high-pressure pipeline as claimed in claim 6, wherein both end portions of the first clamp piece are bent to form first connection pieces; both ends of the second hoop sheet are bent to form a second connecting sheet; the first connecting piece and the second connecting piece are detachably connected through the fixing piece;

and/or two end parts of the third hoop sheet are bent to form a third connecting sheet; both ends of the fourth hoop sheet are bent to form a fourth connecting sheet; the third connecting piece and the fourth connecting piece are detachably connected through the fixing piece.

8. The anti-release clamp for high-pressure pipes according to any one of claims 1 to 5, wherein the first clamp is of a resilient structure; and/or the second clamp is of an elastic structure.

9. A connection structure configured to connect two tubular structures, the connection structure comprising a first clamp, a second clamp, a hose, and a connector;

two ends of the hose are configured to be respectively sleeved on the two tubular structures;

the first clamp and the second clamp are respectively sleeved at two ends of the hose body, and the first clamp and the second clamp are both configured to clamp the hose body;

the both ends of connecting piece connect respectively in first clamp with the second clamp.

10. A pipe structure comprising a high-pressure line release prevention clamp according to any one of claims 1 to 8 or a connection structure according to claim 9.

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