CN216519987U - Pipe clamp assembly and engineering machinery - Google Patents
Pipe clamp assembly and engineering machinery Download PDFInfo
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- CN216519987U CN216519987U CN202122966087.6U CN202122966087U CN216519987U CN 216519987 U CN216519987 U CN 216519987U CN 202122966087 U CN202122966087 U CN 202122966087U CN 216519987 U CN216519987 U CN 216519987U
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Abstract
The embodiment of the utility model provides a pipe clamp assembly and engineering machinery, wherein the pipe clamp assembly comprises: a first component comprising: the first mounting seat is provided with a limiting groove; the first limiting plate is arranged on the first mounting seat; a second component comprising: the second mounting seat is abutted against the first limiting plate; the second limiting plate is arranged on the second mounting seat and provided with a limiting bulge, and the limiting bulge extends into the limiting groove; the connecting piece is used for connecting the first assembly and the second assembly. In the technical scheme of the utility model, the limiting protrusion and the limiting groove can play a role in auxiliary installation, so that workers can conveniently and rapidly install and position the first component and the second component, the installation efficiency is improved, and the possibility of dislocation of the first component and the second component is reduced.
Description
Technical Field
The embodiment of the utility model relates to the technical field of engineering machinery, in particular to a pipe clamp assembly and engineering machinery.
Background
The mixer truck and the dump truck have large self bearing capacity and are in bad working conditions, and the steering hydraulic system has large heat productivity. Generally, the engineering machinery is provided with heat dissipation equipment, wherein a heat dissipation steel pipe is directly clamped by two steel plates and is not easy to mount, and the two steel plates are easy to misplace.
SUMMERY OF THE UTILITY MODEL
To solve or improve at least one of the above technical problems, an object of an embodiment of the present invention is to provide a pipe clamp assembly.
Another object of an embodiment of the present invention is to provide a working machine having the pipe clamp assembly.
To achieve the above object, an embodiment of a first aspect of the present invention provides a pipe clamp assembly, including: a first component comprising: the first mounting seat is provided with a limiting groove; the first limiting plate is arranged on the first mounting seat; a second component comprising: the second mounting seat is abutted against the first limiting plate; the second limiting plate is arranged on the second mounting seat and provided with a limiting bulge, and the limiting bulge extends into the limiting groove; the connecting piece is used for connecting the first assembly and the second assembly.
According to the pipe clamp assembly provided by the embodiment of the utility model, the limiting protrusion and the limiting groove can play a role in auxiliary installation, so that workers can conveniently and rapidly install and position the first assembly and the second assembly, the installation efficiency is improved, and the possibility of dislocation of the first assembly and the second assembly is reduced.
Specifically, a conduit clamp assembly includes a first assembly, a second assembly, and a connector. Wherein, first subassembly includes first mount pad and first limiting plate, and first mount pad is located to first limiting plate. The second assembly comprises a second mounting seat and a second limiting plate, and the second mounting seat is arranged on the second limiting plate. Further, the second mounting seat is abutted to the first limiting plate. The first mounting seat is provided with a limiting groove, the second limiting plate is provided with a limiting bulge, and the limiting bulge extends into the limiting groove. Spacing arch and spacing groove can play the effect of supplementary installation, and the staff of being convenient for installs the location with first subassembly and second subassembly fast, is favorable to improving the installation effectiveness, reduces the possibility that dislocation appears in first subassembly and second subassembly.
Further, the connecting member is used for connecting the first component and the second component. Through the connecting piece, first mount pad can be relatively fixed with the second mount pad. Engineering machine tool's pipeline is located between two mount pads, and first subassembly and second subassembly can carry out spacingly to the pipeline.
It should be noted that the pipeline of the present invention is a steel pipe or a pipe made of other materials. Spacing groove and spacing arch are cuboid type or other shapes, can further improve the positioning effect to first subassembly and second subassembly, reduce the possibility that not parallel and level appears in both. In addition, the first component and the second component are allowed to have certain clearance in the height direction so as to prevent installation interference caused by positioning structures or production machining errors.
In addition, the technical scheme provided by the utility model can also have the following additional technical characteristics:
in the above technical solution, the first component further includes: the first buffer block is arranged on one side of the first mounting seat; the second assembly further comprises: the second buffer block is arranged on one side of the second mounting seat, the first buffer block and the second buffer block are both located between the first mounting seat and the second mounting seat, the first buffer block and the second buffer block are both located between the first limiting plate and the second limiting plate, and the first buffer block and the second buffer block are used for limiting the pipeline.
In this technical scheme, first subassembly still includes first buffer block, and one side of first mount pad is located to first buffer block. The second subassembly still includes the second buffer block, and one side of second mount pad is located to the second buffer block. The first buffer block and the second buffer block are located between the first mounting seat and the second mounting seat, and the first buffer block and the second buffer block are located between the first limiting plate and the second limiting plate. The first buffer block and the second buffer block are used for limiting the pipeline.
In the related technology, the mixer truck and the dump truck have large self bearing capacity and are in bad working conditions, and the steering hydraulic system has large heat productivity. Generally, such engineering machines are equipped with heat dissipation equipment, wherein a heat dissipation steel pipe is directly clamped by two steel plates, and hydraulic resonance is easily aggravated due to rigid connection between the steel plates and the steel pipe.
In the technical scheme defined by the utility model, the buffer block is arranged on one side of the mounting seat, the two buffer blocks are positioned between the two mounting seats, and the pipeline is directly contacted with the two buffer blocks, so that the buffer blocks can play the roles of buffering, shock absorption and noise reduction, and the possibility of hydraulic resonance is greatly reduced.
It should be noted that the pipeline of the present invention is a steel pipe or a pipe made of other materials. The buffer block is a rubber block or other structures with certain elasticity. Preferably, the pipeline is made of Q235, the buffer block is made of rubber, the rubber is beneficial to reducing vibration of the steel pipe and reducing the occurrence of resonance problem caused by transmission of hydraulic impact sound to a frame or a vehicle body, and the steel pipe and the rubber block can be formed into an integrated structure by adopting a vulcanization process.
In the technical scheme, the first buffer block and the first mounting seat are of an integrated structure; and/or the second buffer block and the second mounting seat are of an integrated structure.
In the technical scheme, the buffer block and the mounting seat are arranged into an integrated structure, so that on one hand, the mechanical property is good, the connection strength between the buffer block and the mounting seat is higher, and the buffer block is not easy to fall off; on the other hand, be favorable to reducing the quantity of spare part, promote the integrated level of spare part, reduce the installation complexity to improve the assembly efficiency of staff to the pipe clamp subassembly.
In the technical scheme, the first buffer block is vulcanized rubber; and/or the second buffer block is vulcanized rubber.
In this technical scheme, through setting up first buffer block into vulcanized rubber, when first buffer block can possess certain elasticity, with first mount pad formula structure as an organic whole to both can realize buffering, absorbing effect, can increase the joint strength between first buffer block and the first mount pad again.
Further, the second buffer block is vulcanized rubber, and when the second buffer block possesses certain elasticity, with second mount pad formula structure as an organic whole to both can realize buffering, absorbing effect, can increase the joint strength between second buffer block and the second mount pad again.
It should be noted that, in the two buffer blocks, only one of the two buffer blocks may be vulcanized rubber, and the other buffer block may be of other elastic structure.
In the above technical scheme, one side that first buffer block deviates from first mount pad is equipped with at least one first mounting groove, one side that the second buffer block deviates from the second mount pad is equipped with at least one second mounting groove, and the mounting hole is constituteed with the second mounting groove to first mounting groove, and the mounting hole is worn to locate by the pipeline.
In this technical scheme, set up first mounting groove through the one side that deviates from first mount pad with first buffer block, one side that the second buffer block deviates from the second mount pad sets up the second mounting groove, and the mounting hole can be constituteed with the second mounting groove to first mounting groove, and the mounting hole is worn to locate by the pipeline, and the mounting hole can be spacing to the pipeline. The first buffer block and the second buffer block can play a role in buffering and damping so as to reduce the possibility of hydraulic resonance. Through setting up first mounting groove and second mounting groove, be favorable to improving first buffer block and second buffer block to the spacing effect of pipeline, further reduce the possibility that hydraulic pressure resonance appears.
It is worth mentioning that the number of the first mounting grooves is at least one, i.e. the first mounting grooves are one, two or more. The number of the second mounting grooves is at least one, namely one, two or more. The number of the first mounting grooves and the number of the second mounting grooves can be the same or different, and the mounting holes formed by the first mounting grooves and the second mounting grooves can be one, two or more. The structure shape, the limiting effect, the occupied space size, the cost and other factors of the pipeline are considered, and the first installation groove and the second installation groove are flexibly arranged according to actual requirements.
In the above technical scheme, the number of the first mounting grooves is two, the number of the second mounting grooves is two, each first mounting groove and one corresponding second mounting groove form one mounting hole, the number of the connecting pieces is one, and the connecting pieces are located between the two mounting holes.
In this technical scheme, through setting up the quantity with first mounting groove to two, the quantity of second mounting groove sets up to two, and every first mounting groove homoenergetic constitutes a mounting hole with a second mounting groove that corresponds, and the quantity of mounting hole this moment is two. The number of the pipelines can be two, and each pipeline is arranged in a corresponding mounting hole in a penetrating manner; or the number of the pipelines is one, the pipelines are U-shaped pipes, each U-shaped pipe comprises a bent pipe section and two straight pipe sections, one end of each bent pipe section is connected with one straight pipe section, and the other end of each bent pipe section is connected with the other straight pipe section. Each straight pipe section is arranged in a corresponding mounting hole in a penetrating mode.
Further, the number of the connecting pieces is one, and the connecting pieces are located between the two mounting holes. Through setting up the quantity of connecting piece to one, for the connecting piece be two or more than two the form, simple structure is favorable to simplifying the installation, raises the efficiency. In addition, because the connecting piece is positioned between the two mounting holes, the limiting effect of the mounting holes on the pipeline can not be influenced by one connecting piece.
In the technical scheme, the first mounting seat and the first limiting plate are of an integrated structure; and/or the second mounting seat and the second limiting plate are of an integrated structure.
In the technical scheme, the mounting seat and the limiting plate are arranged into an integrated structure, so that on one hand, the mechanical property is good, and the connection strength between the limiting plate and the mounting seat is higher; on the other hand, be favorable to reducing the quantity of spare part, promote the integrated level of spare part, reduce the installation complexity to improve the assembly efficiency of staff to the pipe clamp subassembly.
In the technical scheme, the distance between the central lines of the two mounting holes is 50mm to 80 mm; and/or the inner diameter of the mounting hole is 10mm to 20 mm.
In the technical scheme, the distance between the center lines of the two mounting holes is set to be 50mm to 80mm, so that on one hand, the phenomenon that the two mounting holes are too close to each other and hydraulic resonance is easily aggravated can be avoided; on the other hand, the phenomenon that the distance between the two mounting holes is too long can be avoided, the space utilization rate is improved, and the overall size of the pipe clamp assembly is reduced.
Further, the internal diameter of mounting hole is 10mm to 20mm, through the internal diameter of control mounting hole, can avoid the internal diameter of mounting hole too big or undersize, is favorable to improving the spacing effect of mounting hole to the pipeline.
It is worth mentioning that the pipe clamp assembly is a duplex pipe clamp, and preferably, the distance between the two mounting holes is 64mm, and the inner diameter of the mounting hole is 14.5 mm.
In the technical scheme, the connecting piece sequentially penetrates through the first mounting seat, the first buffer block, the second buffer block and the second mounting seat; or the connecting piece sequentially passes through the second mounting seat, the second buffer block, the first buffer block and the first mounting seat.
In this technical scheme, the connecting piece includes screw rod, end stop, bullet pad and nut. Specifically, the end fender is located the one end of screw rod, and the other end of screw rod passes first mount pad, first buffer block, second buffer block and second mount pad in proper order, and the end fender offsets with first mount pad this moment. The other end of the screw rod is in threaded connection with the nut, and the elastic pad is located between the nut and the second mounting seat. By arranging the elastic pad, on one hand, the abrasion between the nut and the second mounting seat can be reduced; on the other hand, an elastic force far away from the second mounting seat can be applied to the nut, so that the friction force between the nut and the screw rod is increased, and the possibility of falling of the nut is greatly reduced.
Or one end of the screw, which is far away from the end stop, sequentially passes through the second mounting seat, the second buffer block, the first buffer block and the first mounting seat, and the end stop is abutted against the second mounting seat at the moment. The other end of the screw rod is in threaded connection with the nut, and the elastic pad is located between the nut and the first mounting seat. By arranging the elastic pad, on one hand, the abrasion between the nut and the first mounting seat can be reduced; on the other hand, an elastic force far away from the first mounting seat can be applied to the nut, so that the friction force between the nut and the screw rod is increased, and the possibility of falling of the nut is greatly reduced.
An embodiment of the second aspect of the present invention provides a construction machine, including: a pipeline; in the pipe clamp assembly in any of the embodiments, the pipeline is disposed between the first buffer block and the second buffer block of the pipe clamp assembly.
According to an embodiment of the work machine according to the utility model, the work machine comprises a pipe and a pipe clamp assembly according to any of the embodiments described above. The pipeline is located between the first buffer block and the second buffer block of the pipe clamp assembly. The first buffer block and the second buffer block can limit the pipeline. The first mounting seat of the pipe clamp assembly can be provided with a connecting hole connected with the frame, so that a mounting support does not need to be added, and the first mounting seat support is connected with the frame, and the simplification of mounting is facilitated.
The engineering machinery comprises any pipe clamp assembly in the first aspect, so that the beneficial effects of any embodiment are achieved, and the description is omitted.
Additional aspects and advantages of embodiments of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.
Drawings
Figure 1 shows a schematic view of a pipe clamp assembly according to one embodiment of the present invention;
FIG. 2 shows a schematic diagram of a first assembly according to an embodiment of the utility model;
FIG. 3 shows a schematic diagram of a second assembly according to an embodiment of the utility model;
fig. 4 shows a schematic view of a working machine according to an embodiment of the utility model.
Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 4 is:
100: a pipe clamp assembly; 110: a first component; 111: a first mounting seat; 1111: a limiting groove; 112: a first buffer block; 113: a first limit plate; 120: a second component; 121: a second mounting seat; 122: a second buffer block; 123: a second limiting plate; 1231: a limiting bulge; 130: mounting holes; 131: a first mounting groove; 132: a second mounting groove; 140: a connecting member; 141: a screw; 142: end blocking; 143: a spring pad; 144: a nut; 200: an engineering machine; 210: a pipeline.
Detailed Description
In order that the above objects, features and advantages of the embodiments of the present invention can be more clearly understood, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings and detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, embodiments of the present invention may be practiced otherwise than as specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.
A pipe clamp assembly 100 and a work machine 200 provided according to some embodiments of the present invention are described below with reference to fig. 1-4.
Example one
As shown in fig. 1, 2 and 3, a pipe clamp assembly 100 according to an embodiment of the present invention includes a first assembly 110, a second assembly 120 and a connecting member 140. The first assembly 110 includes a first mounting seat 111 and a first limiting plate 113, and the first limiting plate 113 is disposed on the first mounting seat 111. The second assembly 120 includes a second mounting seat 121 and a second stopper plate 123, and the second stopper plate 123 is disposed on the second mounting seat 121. Further, the second mounting seat 121 abuts against the first stopper plate 113. First mount pad 111 is equipped with spacing groove 1111, and second limiting plate 123 is equipped with spacing arch 1231, and spacing arch 1231 stretches into spacing groove 1111. Spacing arch 1231 and spacing groove 1111 can play the effect of supplementary installation, and the staff of being convenient for installs the location with first subassembly 110 and second subassembly 120 fast, is favorable to improving the installation effectiveness, reduces first subassembly 110 and the possibility that the dislocation appears with second subassembly 120.
Further, the connector 140 is used to connect the first module 110 and the second module 120. The first mounting seat 111 and the second mounting seat 121 can be fixed relative to each other by the connecting member 140. The pipeline 210 of the working machine 200 is located between two mounting seats, and the first assembly 110 and the second assembly 120 can limit the pipeline 210.
It should be noted that the pipeline 210 of the present invention is a steel pipe or other pipe. The limiting groove 1111 and the limiting protrusion 1231 are both in a cuboid shape or other shapes, so that the positioning effect on the first component 110 and the second component 120 can be further improved, and the possibility of non-parallel of the first component and the second component is reduced. In addition, the first assembly 110 and the second assembly 120 are allowed to have a certain gap in a height direction to prevent installation interference due to a positioning structure or a manufacturing process error.
In another embodiment, the first mounting seat 111 and the first limiting plate 113 are an integral structure, and the second mounting seat 121 and the second limiting plate 123 are an integral structure. The mounting seat and the limiting plate are arranged into an integrated structure, so that on one hand, the mechanical property is good, and the connection strength between the limiting plate and the mounting seat is higher; on the other hand, be favorable to reducing the quantity of spare part, promote the integrated level of spare part, reduce the installation complexity to improve the assembly efficiency of staff to the pipe clamp subassembly.
It should be noted that only one set of mounting seats and limiting plates in the pipe clamp assembly 100 may be integrated. Specifically, the first mounting seat 111 and the first limiting plate 113 are of an integrated structure, and the second mounting seat 121 and the second limiting plate 123 are connected in other manners; or, the second mounting seat 121 and the second limiting plate 123 are of an integrated structure, and the first mounting seat 111 and the first limiting plate 113 are connected in other manners.
Example two
As shown in fig. 1, 2 and 3, a pipe clamp assembly 100 according to an embodiment of the present invention includes a first assembly 110, a second assembly 120 and a connecting member 140. The first assembly 110 includes a first mounting seat 111 and a first buffer block 112, and the first buffer block 112 is disposed on one side of the first mounting seat 111. The second assembly 120 includes a second mounting seat 121 and a second buffer block 122, and the second buffer block 122 is disposed at one side of the second mounting seat 121. The connector 140 is used to connect the first module 110 and the second module 120. The first mounting seat 111 and the second mounting seat 121 can be fixed relative to each other by the connecting member 140.
Further, the first buffer block 112 and the first mounting seat 111 are of an integrated structure, and the second buffer block 122 and the second mounting seat 121 are of an integrated structure. By arranging the buffer block and the mounting seat into an integrated structure, on one hand, the mechanical property is good, the connection strength between the buffer block and the mounting seat is higher, and the buffer block is not easy to fall off; on the other hand, be favorable to reducing the quantity of spare part, promote the integrated level of spare part, reduce the installation complexity to improve the assembly efficiency of staff to pipe clamp subassembly 100.
Further, the first buffer block 112 and the second buffer block 122 are both located between the first mounting seat 111 and the second mounting seat 121. The pipeline 210 of the construction machine 200 is located between the first buffer block 112 and the second buffer block 122, and the first buffer block 112 and the second buffer block 122 can limit the pipeline 210.
It should be noted that the pipeline 210 of the present invention is a steel pipe or other pipe. The buffer block is a rubber block or other structures with certain elasticity. Preferably, the pipeline 210 is made of Q235, the buffer block is made of rubber, the rubber is beneficial to reducing vibration of the steel pipe and reducing the occurrence of resonance problem caused by transmission of hydraulic impact sound to a frame or a vehicle body, and the steel pipe and the rubber block can form an integrated structure by adopting a vulcanization process.
In the related technology, the mixer truck and the dump truck have large self bearing capacity and are in bad working conditions, and the steering hydraulic system has large heat productivity. Generally, such a construction machine 200 is equipped with a heat dissipation device, wherein a heat dissipation steel pipe is directly clamped by two steel plates, and since the steel plates are rigidly connected with the steel pipe, hydraulic resonance is easily aggravated.
In the technical scheme defined by the utility model, the buffer blocks are arranged on one side of the mounting seats, the two buffer blocks are positioned between the two mounting seats, and the pipeline 210 is directly contacted with the two buffer blocks, so that the buffer blocks can play roles in buffering, shock absorption and noise reduction, and the possibility of hydraulic resonance is greatly reduced.
EXAMPLE III
As shown in fig. 1 and 2, the first cushion block 112 is vulcanized rubber. First buffer block 112 can possess certain elasticity simultaneously, with first mount pad 111 formula structure as an organic whole to both can realize buffering, absorbing effect, can increase the joint strength between first buffer block 112 and the first mount pad 111 again.
Further, as shown in fig. 1 and 3, the second buffer block 122 is made of vulcanized rubber, and the second buffer block 122 has a certain elasticity and is integrated with the second mounting seat 121, so that the buffering and damping effects can be achieved, and the connection strength between the second buffer block 122 and the second mounting seat 121 can be increased.
It should be noted that, in the two buffer blocks, only one of the two buffer blocks may be vulcanized rubber, and the other buffer block may be of other elastic structure.
Example four
As shown in fig. 1, 2 and 3, one side of the first buffer block 112 departing from the first mounting seat 111 is provided with at least one first mounting groove 131, one side of the second buffer block 122 departing from the second mounting seat 121 is provided with at least one second mounting groove 132, the first mounting groove 131 and the second mounting groove 132 can form a mounting hole 130, the pipeline 210 penetrates through the mounting hole 130, and the mounting hole 130 can limit the pipeline 210. The first buffer block 112 and the second buffer block 122 may perform buffering and shock absorption functions to reduce the possibility of hydraulic resonance. Through setting up first mounting groove 131 and second mounting groove 132, be favorable to improving first buffer block 112 and second buffer block 122 to pipeline 210's spacing effect, further reduce the possibility that hydraulic resonance appears.
It is worth mentioning that the number of the first mounting grooves 131 is at least one, that is, the first mounting grooves 131 are one, two or more. The number of the second mounting grooves 132 is at least one, i.e., one, two or more second mounting grooves 132. The number of the first installation grooves 131 and the number of the second installation grooves 132 may be the same or different, and the installation holes 130 formed by the two installation grooves may be one, two or more. The first installation groove 131 and the second installation groove 132 are flexibly arranged according to actual requirements in consideration of structural shapes, limiting effects, occupied space sizes, costs and other factors of the pipeline 210.
In another embodiment, the number of the first installation grooves 131 is two, the number of the second installation grooves 132 is two, and each first installation groove 131 and a corresponding second installation groove 132 form one installation hole 130, in which case, the number of the installation holes 130 is two. The number of the pipelines 210 can be two, and each pipeline 210 is arranged in a corresponding mounting hole 130 in a penetrating manner; or, the number of the pipeline 210 is one, the pipeline 210 is a U-shaped pipe, the U-shaped pipe includes a bent pipe section and two straight pipe sections, one end of the bent pipe section is connected with one of the straight pipe sections, and the other end of the bent pipe section is connected with the other straight pipe section. Each straight tube section is inserted through a corresponding one of the mounting holes 130.
Further, the number of the connection members 140 is one, and the connection members 140 are located between the two mounting holes 130. By setting the number of the connecting members 140 to one, compared with the form that the number of the connecting members 140 is two or more, the structure is simple, the installation is simplified, and the efficiency is improved. In addition, since the connecting member 140 is located between the two mounting holes 130, the effect of the mounting holes 130 on the pipe 210 is not affected by one connecting member 140.
Further, the distance between the center lines of the two mounting holes 130 is 50mm to 80 mm. On one hand, the phenomenon that hydraulic resonance is easily aggravated due to too close distance between the two mounting holes 130 can be avoided; on the other hand, the two mounting holes 130 can be prevented from being too far away, which is beneficial to improving the space utilization rate and reducing the overall volume of the pipe clamp assembly 100.
Further, the internal diameter of mounting hole 130 is 10mm to 20mm, through the internal diameter of control mounting hole 130, can avoid the internal diameter of mounting hole 130 too big or undersize, is favorable to improving the spacing effect of mounting hole 130 to pipeline 210.
It is noted that the pipe clamp assembly 100 is a duplex pipe clamp, and preferably, the two mounting holes 130 are spaced apart by 64mm, and the inner diameter of the mounting holes 130 is 14.5 mm.
EXAMPLE five
As shown in fig. 1, the connection member 140 includes a screw 141, an end stop 142, an elastic pad 143, and a nut 144. Specifically, the end stop 142 is disposed at one end of the screw rod 141, and the other end of the screw rod 141 sequentially passes through the first mounting seat 111, the first buffer block 112, the second buffer block 122, and the second mounting seat 121, at which time the end stop 142 abuts against the first mounting seat 111. The other end of the screw rod 141 is in threaded connection with a nut 144, and the elastic pad 143 is located between the nut 144 and the second mounting seat 121. By providing the elastic pad 143, on the one hand, the wear between the nut 144 and the second mounting seat 121 can be reduced; on the other hand, an elastic force away from the second mounting seat 121 can be applied to the nut 144 to increase the friction force between the nut 144 and the screw 141, thereby greatly reducing the possibility of the nut 144 falling off.
Or, one end of the screw rod 141, which is far away from the end stop 142, sequentially passes through the second mounting seat 121, the second buffer block 122, the first buffer block 112 and the first mounting seat 111, and at this time, the end stop 142 abuts against the second mounting seat 121. The other end of the screw rod 141 is in threaded connection with a nut 144, and an elastic pad 143 is located between the nut 144 and the first mounting seat 111. By providing the elastic pad 143, on the one hand, the wear between the nut 144 and the first mounting seat 111 can be reduced; on the other hand, an elastic force away from the first mounting seat 111 can be applied to the nut 144 to increase the friction force between the nut 144 and the screw 141, thereby greatly reducing the possibility of the nut 144 falling off.
EXAMPLE six
As shown in fig. 4, a work machine 200 according to an embodiment of the present disclosure includes a pipeline 210 and any of the pipe clamp assemblies 100 described above. The conduit 210 is located between the first and second snubbers 112, 122 of the pipe clamp assembly 100. The first buffer block 112 and the second buffer block 122 can limit the pipeline 210. The first mounting seat 111 of the pipe clamp assembly 100 can be provided with a connecting hole connected with a frame, so that a mounting bracket is not required to be added, and the first mounting seat 111 is connected with the frame, which is beneficial to simplifying the installation.
According to the pipe clamp assembly and the engineering machinery, the limiting protrusion and the limiting groove can play a role in auxiliary installation, so that workers can quickly install and position the first assembly and the second assembly, the installation efficiency is improved, and the possibility of dislocation of the first assembly and the second assembly is reduced.
In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are used broadly and should be construed to include, for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A tube clamp assembly (100), comprising:
a first component (110) comprising:
the first mounting seat (111), the first mounting seat (111) is provided with a limiting groove (1111);
a first limit plate (113) provided to the first mounting seat (111);
a second assembly (120) comprising:
the second mounting seat (121) is abutted against the first limiting plate (113);
the second limiting plate (123) is arranged on the second mounting seat (121), the second limiting plate (123) is provided with a limiting protrusion (1231), and the limiting protrusion (1231) extends into the limiting groove (1111);
a connector (140), the connector (140) for connecting the first component (110) with the second component (120).
2. The pipe clamp assembly (100) of claim 1, wherein the first assembly (110) further comprises:
a first buffer block (112) arranged on one side of the first mounting seat (111);
the second assembly (120) further comprises:
a second buffer block (122) provided at one side of the second mounting seat (121),
the first buffer block (112) and the second buffer block (122) are located between the first mounting seat (111) and the second mounting seat (121), the first buffer block (112) and the second buffer block (122) are located between the first limiting plate (113) and the second limiting plate (123), and the first buffer block (112) and the second buffer block (122) are used for limiting a pipeline (210).
3. The pipe clamp assembly (100) of claim 2, wherein the first bumper block (112) is a unitary structure with the first mounting seat (111); and/or
The second buffer block (122) and the second mounting seat (121) are of an integrated structure.
4. The pipe clamp assembly (100) of claim 2, wherein the first bump stop (112) is vulcanized rubber; and/or the second cushion block (122) is vulcanized rubber.
5. Pipe clamp assembly (100) according to claim 2, wherein at least one first mounting groove (131) is provided on a side of the first damping block (112) facing away from the first mounting seat (111), at least one second mounting groove (132) is provided on a side of the second damping block (122) facing away from the second mounting seat (121), the first mounting groove (131) and the second mounting groove (132) form a mounting hole (130), and the pipeline (210) is inserted into the mounting hole (130).
6. Pipe clamp assembly (100) according to claim 5, wherein the number of the first mounting grooves (131) is two, the number of the second mounting grooves (132) is two, each of the first mounting grooves (131) and a corresponding one of the second mounting grooves (132) constitute one of the mounting holes (130), the number of the connecting members (140) is one, and the connecting members (140) are located between two of the mounting holes (130).
7. The pipe clamp assembly (100) of claim 1, wherein the first mounting seat (111) is a unitary structure with the first stop plate (113); and/or
The second mounting seat (121) and the second limiting plate (123) are of an integrated structure.
8. Pipe clamp assembly (100) according to claim 5 or 6, characterized in that the distance between the centre lines of the two mounting holes (130) is 50mm to 80 mm; and/or
The inner diameter of the mounting hole (130) is 10mm to 20 mm.
9. The pipe clamp assembly (100) of claim 2, wherein the connector (140) passes through the first mounting seat (111), the first bumper block (112), the second bumper block (122), and the second mounting seat (121) in sequence; or the connecting piece (140) sequentially penetrates through the second mounting seat (121), the second buffer block (122), the first buffer block (112) and the first mounting seat (111).
10. A work machine (200), characterized by comprising:
a conduit (210);
the pipe clamp assembly (100) of any one of claims 1-9, the conduit (210) being disposed between a first bump stop (112) and a second bump stop (122) of the pipe clamp assembly (100).
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CN202122966087.6U CN216519987U (en) | 2021-11-29 | 2021-11-29 | Pipe clamp assembly and engineering machinery |
Applications Claiming Priority (1)
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CN202122966087.6U CN216519987U (en) | 2021-11-29 | 2021-11-29 | Pipe clamp assembly and engineering machinery |
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CN216519987U true CN216519987U (en) | 2022-05-13 |
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2021
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