CN214579593U - Butt joint position adjustable pipeline installation component - Google Patents

Abstract

The application discloses butt joint position adjustable pipeline subassembly, wherein butt joint position adjustable pipeline subassembly includes a spacing seat, a sliding seat and a coupling component, wherein the middle part of spacing seat forms a mounting hole, wherein the sliding seat passes through the coupling component with can follow the gliding mode of plane direction that spacing seat formed install in spacing seat the mounting hole, and then can make install in body connector on the butt joint position adjustable pipeline installation subassembly is aimed at with the connecting pipe that needs to be connected.

Description

Butt joint position adjustable pipeline installation component

Technical Field

The utility model relates to an installation component especially relates to a butt joint position adjustable pipeline installation component.

Background

The ideas of energy conservation, environmental protection and other new times of development are gradually deepened. In order to reduce pollutants emitted by fuel combustion in the process of fuel vehicle formation, new energy vehicles have become the mainstream of new-generation vehicle manufacturing.

The new energy automobile is powered by batteries, wherein the batteries are various and comprise lithium batteries, lead-acid batteries, fuel batteries and the like. And a fuel cell, the fuel of which is a clean energy source on the one hand, and the fuel cell can provide a predetermined amount of electric energy for the traveling of the vehicle on the other hand, is dominant.

However, after a predetermined period of use, the fuel cell needs to be replaced to continuously supply electric power to the vehicle. However, since the fuel cell is used, it needs to be cooled by a coolant. Therefore, there is a need for a fuel cell that can be quickly replaced.

In addition, after the battery pack of the fuel cell is mounted on the vehicle, other components on the vehicle need to be fixed by the mounting mechanism, and particularly, the fluid connection pipe that is butted against the battery pack on the vehicle needs to be fixed in order to prevent the fluid connection pipe from being displaced greatly. However, the docking pipe of the replaced battery pack, which needs to be docked with the fluid connection pipe, sometimes cannot be aligned with the fixed fluid connection pipe, and at this time, there is a possibility that the battery pack cannot be docked with the fluid connection pipe because there is no space around the vehicle to allow the battery pack to move.

For this reason, a mounting seat for mounting a fluid connection pipe has been developed in the prior art, as disclosed in the publication: CN207229909U patent. This patent discloses a three axis position self-correcting joint support structure which is primarily formed by providing a floating spring and a ball spring between the bolt and the mounting hole of the fixed plate to enable fine adjustment of the mount in its so-called XYZ axis direction. However, in this patent, since both the floating spring and the spherical spring are in contact with the bolt, when the floating spring is deformed to allow the fixed plate to move in its so-called Z-direction, the fixed plate tends to deviate from its so-called XY-plane, which tends to damage the tubular body mounted on the fixed plate through the hole.

More importantly, the range of movement of the fixed plate on the so-called XY axis is very limited due to the large elastic potential energy of the floating spring, and a user needs to apply a large force when the fixed plate needs to be moved in the XY axis direction, thereby causing great inconvenience to the user.

SUMMERY OF THE UTILITY MODEL

An advantage of the present invention is that a docking position adjustable pipeline installation component is provided, wherein the docking position adjustable pipeline installation component can make install in the connecting pipe that body connector on the docking position adjustable pipeline installation component and needs to be connected is aimed at.

Another advantage of the present invention is to provide a docking position adjustable pipeline installation component, wherein the docking position adjustable pipeline installation component includes a spacing seat and a sliding seat, wherein the spacing seat with but set up relative slip resettedly between the sliding seat, thereby make spacing seat or can slide on a sliding plane between the sliding seat, thereby adjust relatively spacing seat or the sliding seat is in position on the sliding plane.

Another advantage of the present invention is to provide a docking station adjustable pipeline installation assembly, wherein the docking station adjustable pipeline installation assembly includes at least a pair of fixed components and at least a movable assembly

In order to realize the utility model discloses above at least one purpose, the utility model provides a butt joint position adjustable piping erection subassembly, wherein butt joint position adjustable piping erection subassembly includes:

the limiting seat is provided with a mounting hole in the middle;

a movable seat; and

and the movable seat is arranged in the mounting hole of the limiting seat in a manner of sliding along the plane direction formed by the limiting seat through the coupling member.

According to the utility model discloses an embodiment, set up at least one on the sliding seat and be used for the butt joint passageway of body for a butt joint at least body.

According to the utility model discloses an embodiment, at least a fixed component of butt joint position adjustable pipeline installation subassembly, spacing seat or the sliding seat be connected in fixed component, in order to fix spacing seat or the sliding seat.

According to an embodiment of the present invention, the movable seat is installed in the mounting hole of the limiting seat in a manner that tends to reset by the coupling member.

According to an embodiment of the present invention, the movable seat is installed by the coupling member in the mounting hole of the limiting seat in a manner that can be finely adjusted in the direction perpendicular to the limiting seat.

According to an embodiment of the present invention, the coupling member includes at least two extension springs, wherein at least two of the extension springs are symmetrically disposed between the movable seat and the side wall of the mounting hole formed on the spacing seat, wherein the movable seat is held by at least two of the balance forces of the extension springs toward different directions in a manner of forming on the spacing seat a predetermined distance apart between the side walls of the mounting hole.

According to the utility model discloses an embodiment, the extension spring is held to draw ground mode to one side the sliding seat with spacing seat forms between the lateral wall of mounting hole.

According to an embodiment of the present invention, the coupling member is implemented as at least one pair of magnetic rings, one of the magnetic rings being disposed at a side wall forming the mounting hole, and the other of the magnetic rings being correspondingly disposed at a side wall of the movable seat.

According to an embodiment of the invention, the coupling member is implemented as a ball spring, wherein the ball spring is arranged between a side wall forming the mounting hole and a side wall of the movable seat.

According to an embodiment of the invention, the coupling member is implemented as at least one rubber spacer ring, wherein the rubber spacer ring is arranged at the side wall forming the mounting hole and the side wall of the sliding seat.

Further objects and advantages of the invention will be fully apparent from the ensuing description.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description.

Drawings

Fig. 1 shows a perspective view of the pipeline installation assembly with adjustable butt joint position of the present invention.

Fig. 2 shows an exploded view of the pipeline installation assembly with adjustable butt joint position of the present invention.

Fig. 3 is a perspective view showing a part of the structure of the pipeline installation assembly with adjustable butt joint position according to the present invention.

FIG. 4 is a top view of the adjustable docking position piping installation assembly of FIG. 3

FIG. 5 shows a cross-sectional view of a portion of the adjustable docking position line attachment assembly at an angle.

Figure 6 shows a schematic view of the coupling member implemented as a spring.

Fig. 7 shows a schematic view when the coupling member is implemented as a pair of magnetic rings.

Fig. 8 shows a schematic view of a snap joint and a quick change joint of a pipeline installation assembly with adjustable butt joint position according to the present invention.

Detailed Description

The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

With reference to fig. 1 to 8 of the specification, according to a preferred embodiment of the present invention, a pipe installation assembly 100 with an adjustable butt joint position is provided, wherein the pipe installation assembly 100 with an adjustable butt joint position can be used to install at least one pipe, and a position of the pipe installation assembly 100 with an adjustable butt joint position for installing the pipe can be adjusted.

Specifically, the pipeline installation assembly 100 with adjustable docking position includes a limiting seat 10, a movable seat 20 and a coupling member 30. The middle of the limiting seat 10 forms a mounting hole 101. The movable seat 20 is mounted to the mounting hole 101 of the stopper seat 10 by the coupling member 30 in a manner of being able to slide along a plane direction formed by the stopper seat 10.

The docking position adjustable line mount assembly 100 includes at least one stationary member 40. The stopping block 10 or the movable block 20 is connected to the fixed member 40, so that when the fixed member 40 is installed at a predetermined position, the stopping block 10 or the movable block 20 can be stopped accordingly.

Preferably, the fixing member 40 is connected to the stopper base 10, and the fixing member 40 can be fixed to a position where the docking position-adjustable pipe installation assembly 100 needs to be installed, so that the docking position-adjustable pipe installation assembly 100 can be fixed to a corresponding installation position.

Since the stopper seat 10 is restricted by the fixing member 40 and cannot slide on the plane formed by the stopper seat 10, at least one docking channel 201 for docking the pipe body is provided on the movable seat 20 for docking the pipe body. It should be noted that, when the fixing member 40 is mounted on the movable seat 20, the movable seat 20 is restricted by the fixing member 40 and cannot slide on a plane formed by the limit seat 10, so that the docking channel 201 for docking the pipe body is disposed on the limit seat 10.

Preferably, the fixing member 40 is implemented to include a bolt 41. At least two fixing holes 1001 are correspondingly formed in the limiting seat 10 or the movable seat 20 for the bolts 41 to pass through. The bolt can pass through the fixing hole 1001 on the limiting seat 10 or the movable seat 20 to be fixed at a position where the pipeline installation component 100 with the adjustable butt joint position needs to be installed.

Preferably, each of the fixing members 40 further includes an elastic member 42 and a sliding block 43, the sliding block 43 is slidably sleeved on the bolt 41 along the length direction of the bolt 41, wherein the elastic member 42 is sleeved on the bolt 41 and is between the sliding block 43 and the head of the bolt 41. Therefore, after the fixing member 40 is fixed at the position where the pipe installation assembly 100 with adjustable abutting position needs to be installed, the bolt 41 is further tightened to compress the elastic member 42, so that the stopper seat 10 or the movable seat 20 can be moved along the length direction of the bolt 41, and the position of the movable seat 20 installed on the stopper seat 10 in the length direction of the bolt 41 can be adjusted, so that the pipe body needing to be abutted to the abutting channel 201 can be adjusted and displaced by a predetermined amount in the length direction of the bolt 41.

In order to enable those skilled in the art to understand the present invention, at least one embodiment of the present invention is illustrated only by way of example, in which the fixing member 40 is mounted on the limiting seat 10. And preferably, the pipeline installation assembly 100 with adjustable butt joint position comprises four fixing members 40, wherein the four fixing members 40 are respectively installed at four different positions of the limiting seat 10 and have the same orientation. Further, at this time, the docking passage 201 is provided on the movable seat 20.

In the preferred embodiment, the movable seat 20 is connected to the position-limiting seat 10 by the coupling member 30 in a manner of being able to slide along the plane direction formed by the position-limiting seat 10. Therefore, when the orientation of the docking channel 201 needs to be adjusted to align the port of the docking channel 201 with the pipe, it is only necessary to slide the movable seat 20 relative to the limiting seat 10 along the plane formed by the limiting seat 10, so that the docking channel 201 can be aligned with the pipe and can be communicated with the pipe.

Further, the movable seat 20 is mounted on the limiting seat 10 by the coupling member 30 in a manner that tends to be reset. That is, after the movable seat 20 slides on the plane formed by the stopper seat 10 by a predetermined distance, the movable seat 20 tends to be restored by the force of the coupling member 30.

In addition, the movable seat 20 is installed in the installation hole 101 of the position limiting seat 10 by the coupling member 30 in a manner of being capable of fine tuning along a direction perpendicular to the position limiting seat 10, so that when the movable seat 20 moves along a plane formed by the position limiting seat 10, the movable seat 20 is not limited in a direction perpendicular to the plane formed by the position limiting seat 10, and thus the movable seat 20 can more easily slide along the plane formed by the position limiting seat 10.

In a preferred embodiment, the coupling member 30 comprises at least two tension springs, wherein at least two tension springs are symmetrically disposed between the side walls of the mounting hole 101 formed by the movable seat 20 and the limiting seat 10, so that the movable seat 20 is held in the mounting hole 101 and does not collide with the side walls forming the mounting hole 101 under the action of at least two balancing forces of the tension springs towards at least two different directions. That is, a gap with a predetermined size is formed between the movable seat 20 and the side wall of the limiting seat 10, where the mounting hole 101 is formed, so that the movable seat 20 can have a sufficient space to slide in the plane direction of the limiting seat 10. Preferably, the coupling member 30 comprises 6 of said tension springs, wherein 6 of said tension springs are symmetrically arranged.

One end of each tension spring is hooked on the limiting seat 10, and the other end of each tension spring is hooked on the movable seat 20. Preferably, at least two notches 102 are formed on the side wall of the limiting seat 10 where the mounting hole 101 is formed, wherein the two notches 102 are communicated with the mounting hole 101. The side wall of each notch 102 formed on the limiting seat 10 is provided with a hook-shaped structure 50 for hooking one end of the tension spring. In addition, a hook-shaped structure 60 is correspondingly arranged on the movable seat 20 at a position close to the side wall forming the mounting hole 101, so as to hook the other end of the tension spring. Preferably, the hook-shaped structure 60 and the hook-shaped structure 50 have the same structural characteristics, except that the hook openings of the hook-shaped structure 50 and the hook-shaped structure 60 face opposite directions, respectively, so as to prevent the two ends of the tension spring from being separated.

Preferably, in this embodiment, each of the tension springs forms an included angle with the plane of the limit seat 10, that is, the tension springs are held between the movable seat 20 and the side wall of the mounting hole 101 formed by the limit seat 10 in a diagonal manner.

It should be noted that the movable seat 20 includes a seat main body 21. The seat main body 21 has a movable main body 211 and a stopper main body 212 formed at an end of the movable main body 211.

The movable body 211 is connected to one end of the tension spring, and is slidably mounted in the mounting hole 101 of the stopper seat 10 in a plane direction formed by the stopper seat 10. The cross-sectional diameter of the movable body 211 is smaller than the cross-sectional diameter of the mounting hole 101 formed in the stopper seat 10, so that a sliding gap of a predetermined size is formed between the movable body 211 and the side wall of the mounting hole 101 formed in the stopper seat 10. The cross-sectional dimension of the limiting body 212 is larger than the cross-sectional dimension of the movable body 211.

In addition, the extension spring is obliquely hooked on the hook-shaped structure 50 of the stopper base 10 in such a manner that the stopper body 212 tends to approach the stopper base 10. Therefore, after the movable body 211 passes through the mounting hole 101, the entire movable seat 20 can be stably held in the mounting hole 101 due to the limit action of the limit body 212.

Further, the movable seat 20 further includes a limiting plate 22, wherein the limiting plate 22 is installed at the other end of the movable body 211, and the cross-sectional diameter of the limiting plate 22 is larger than the cross-sectional diameter of the movable body 211. That is, the movable body 211 passes through the mounting hole 101 of the position-limiting plate 22, and the position-limiting body 212 and the position-limiting plate 22 are respectively retained at both sides of the position-limiting seat 10. It should be noted that the distance between the limiting plate 22 and the limiting body 212 is greater than the thickness of the limiting seat 10, so that the movable seat 20 can slide along the direction perpendicular to the plane of the limiting seat 10 in addition to the direction along the plane of the limiting seat 10. Therefore, when the butt joint channel 201 on the movable seat 20 is in butt joint with the pipe body, the movable seat 20 can not only realize deviation correction in multiple directions, but also play a role in buffering after the pipe body is in butt joint. Thereby, the orientation of the docking channel 201 installed on the movable seat 20 can be adjusted, so that the docking position of the docking channel 201 with the pipe body can be adjusted.

In another embodiment of the present invention, the coupling member 30 is implemented as at least one pair of magnetic rings, one of which is disposed on the side wall forming the mounting hole 101, and the other of which is correspondingly disposed on the side wall of the movable seat 20. As a deformable shape, a portion of the sidewall of the stopper base 10 where the mounting hole 101 is formed is made of a magnetic material, and a corresponding portion of the sidewall of the movable base 20 is also made of a magnetic material. In the above two ways, the movable seat 20 is mounted to the mounting hole 101 of the limit seat 10 by the coupling member 30 in a manner of being able to slide along the plane direction formed by the limit seat 10, and the movable seat 20 is mounted to the limit seat 10 by the coupling member 30 in a manner of being able to tend to return.

In a further embodiment of the present invention, the coupling member 30 is implemented as a ball spring, wherein the ball spring is disposed between a side wall forming the mounting hole 101 and a side wall of the movable seat 20.

Furthermore, the coupling member 30 may also be implemented as at least one rubber spacer ring or a spring, wherein the rubber spacer ring or the spring is disposed at a sidewall forming the mounting hole 101 and a sidewall of the movable mount 20.

Preferably, at least two docking channels 201 are disposed on the limiting seat 10 or the movable seat 20 of the pipeline installation component 100 with adjustable docking positions, and preferably, two docking channels 201 are formed on the movable seat 20. It is worth integrating that two butt joint pipes 23 are integrally formed on the movable seat 20, wherein each butt joint pipe 23 forms one butt joint channel 201.

The position-limiting plate 22 is provided with two through holes 2201. The docking channel 201 is penetratingly formed with the seat main body 21. After the position-limiting plate 22 is fixed to the seat body 21, the docking pipe 23 passes through the through hole 2201 of the position-limiting plate 22, so that the docking pipe 23 extends through two sides of the position-limiting seat 10, so that two sides of the docking channel 201 can communicate with corresponding pipelines respectively.

Preferably, the line mounting assembly 100 with adjustable docking position further comprises a quick-change coupler 70, wherein the quick-change coupler 70 has two quick-change channels 701, wherein the quick-change coupler 70 is detachably mounted to the docking tube 23, so that the two quick-change channels 701 of the quick-change coupler 70 are respectively communicated with the docking channels 201 formed by the docking tube 23.

Preferably, the quick-change coupler 701 is detachably fastened to the docking tube 23. The quick-change coupler 701 may also be detachably coupled to the docking pipe 23 by other coupling methods, and the present invention is not limited in this respect.

Additionally, the adjustable mating position tubing set assembly 100 includes a pair of snap fittings 80. A pair of said snap-on couplings 80 are mounted respectively in said quick-change couplings 701 in said quick-change channels 701 for mating with fluid conduits.

It will be appreciated that the snap fit joint 80 may be implemented as a snap fit joint. In particular, the amount of the solvent to be used,

the snap-fit connector 80 includes a snap spring 81. A pair of locking windows 702 and an insertion port 703 communicating with the locking windows 702 are provided on a side wall of the quick-change coupler 701 forming the communication channel 203.

The latch spring 81 has an engaging portion 811 and a resilient arm 812. The elastic arm 812 is implemented to be made of a flexible material having a predetermined strength, wherein the engaging part 811 is implemented to be made of a hard material. A bayonet 8101 is formed between the elastic arm 812 and the engaging portion 811.

The resilient arms 812 extend radially toward the bayonet 8101 to form at least one pair of ledges 813. When the engaging portion 811 is pressed in the radial direction, the elastic arm 812 is deformed, so that the bayonet 8101 is enlarged. When the pressure pressing the engaging portion 811 is removed, the bayonet 8101 tends to decrease.

The engaging portion 811 is inserted into the card window 702 from the socket 703 in a radially movable manner. Thus, when the fluid conduit is inserted into the communication channel 203, the annular snap projection on the outer wall of the fluid conduit can radially compress the resilient arm 812, thereby deforming the resilient arm 812 such that the annular snap projection on the outer wall of the fluid conduit can pass over the pair of snap rims 813 on the resilient arm 812. Therefore, the fluid pipe is limited by the clamp spring 81 and cannot be pulled out of the quick connection passage 701.

It will be appreciated by persons skilled in the art that the embodiments of the invention shown in the foregoing description are given by way of example only and are not limiting of the invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. A docking position adjustable pipeline mounting assembly, wherein said docking position adjustable pipeline mounting assembly comprises:

the limiting seat is provided with a mounting hole in the middle;

a movable seat; and

and the movable seat is arranged in the mounting hole of the limiting seat in a manner of sliding along the plane direction formed by the limiting seat through the coupling member.

2. The adjustable docking station plumbing fixture according to claim 1 wherein said movable housing defines at least one docking channel for docking with a tubular body for docking with at least one tubular body.

3. The pipeline mounting assembly with adjustable docking position as claimed in claim 1, wherein the pipeline mounting assembly with adjustable docking position comprises at least one fixing member, and the limit seat or the movable seat is connected to the fixing member to fix the limit seat or the movable seat.

4. The adjustable-docking-position pipeline mounting assembly according to claim 1, wherein the movable seat is mounted to the mounting hole of the limit seat by the coupling member in a manner that the movable seat is capable of being reset.

5. The docking position adjustable pipeline mounting assembly according to claim 4, wherein the movable seat is mounted in the mounting hole of the limit seat by the coupling member in a manner of being finely adjustable in a direction perpendicular to the limit seat.

6. The adjustable docking location pipeline mounting assembly of any one of claims 1 to 5 wherein the coupling member comprises at least two tension springs, wherein at least two tension springs are symmetrically disposed between the movable seat and the side wall of the limiting seat forming the mounting hole, and wherein the movable seat is held in the mounting hole by at least two balance forces of the tension springs in different directions at a predetermined distance from the side wall of the limiting seat forming the mounting hole.

7. The pipeline installation assembly with the adjustable butting position according to claim 6, wherein the tension spring is held between the side walls of the installation hole formed by the movable seat and the limiting seat in a diagonal pulling manner.

8. The docking position adjustable pipeline mounting assembly as recited in claim 1, wherein the coupling member is implemented as at least one pair of magnetic rings, one of the magnetic rings is disposed on a sidewall forming the mounting hole, and the other of the magnetic rings is correspondingly disposed on a sidewall of the movable seat.

9. The dock-position-adjustable pipeline mounting assembly according to claim 1, wherein the coupling member is implemented as a ball spring, wherein the ball spring is disposed between a side wall forming the mounting hole and a side wall of the movable seat.

10. The dock-position-adjustable pipeline mounting assembly according to claim 1, wherein the coupling member is implemented as at least one rubber spacer ring, wherein the rubber spacer ring is disposed on a side wall forming the mounting hole and a side wall of the movable seat.

Images