CN108999961B - Mounting structure and holder of acting as go-between shift - Google Patents

Abstract

The utility model relates to a mounting structure of shift line, this mounting structure includes mounting base, guide holder and holder, mounting base is equipped with the open slot that holds the guide holder, the guide holder is equipped with the installation department that is used for installing shift line, the holder has connecting portion and clamping part, the holder is formed with along the locking groove of first direction butt joint on the open slot, be equipped with on the mounting base with connecting portion matched with locking portion, and be formed with the operating portion that makes connecting portion activity on the holder, mounting structure has locking condition and release state, in locking condition, the locking groove is butt joint with the open slot, connecting portion and locking portion cooperation lock, in release state, thereby make connecting portion and locking portion release the guide holder through operating the operating portion, thereby make the locking groove keep away from the open slot. Through above-mentioned technical scheme, the mounting structure of shifting stay wire that this disclosure provided can solve the trouble problem of shifting stay wire dismouting to simple structure, convenient operation.

Description

Mounting structure and holder of acting as go-between shift

Technical Field

The present disclosure relates to the field of vehicle production, and in particular, to a mounting structure and clamping member for a shift cable.

Background

The gear shifting stay wire is a stay wire for connecting a gear shifting mechanism and a transmission, and has the function that in the moving process of a gear shifting lever, the gear shifting rocker arm of the transmission is pulled through the gear shifting stay wire so as to change gears. Because the gear shifting mechanism is arranged in the cockpit and the transmission is arranged in the engine cabin, the gear shifting wire needs to pass through the body of the vehicle, so that the wiring path is longer, interference with surrounding parts is easy to occur, and certain requirements are placed on the trend of the gear shifting wire wiring.

In the prior art, a plurality of bolts and nuts are fixed on a mounting bracket, so that the gear shift stay wire does not interfere with peripheral parts and the direction of the gear shift stay wire is limited. However, this makes the shift cable cumbersome to assemble and disassemble and has a low work efficiency. Moreover, the bolts and nuts are easy to loosen or rust in the working process, and the installation reliability of the gear shifting stay wire is affected.

Disclosure of Invention

The utility model aims at providing a mounting structure of shift stay to solve the trouble problem of shift stay dismouting, and simple structure, convenient operation.

It is another object of the present disclosure to provide a clamp for a shift cable mounting structure.

In order to achieve the above-mentioned purpose, the present disclosure provides a mounting structure of shift cable, including mounting base, guide holder and holder, the mounting base is equipped with the open slot that holds the guide holder, the guide holder is equipped with the installation department that is used for installing shift cable, the holder has connecting portion and clamping part, the holder is formed with along first direction to detain the card slot on the open slot, be equipped with on the mounting base with connecting portion matched with locking portion, and be formed with on the holder and make the operating portion of connecting portion activity, mounting structure has locking condition and release state the locking condition the card slot with the open slot is detained, connecting portion with locking portion cooperation is locked the release state, makes through the operation the connecting portion with locking portion release locking, and makes the card slot keep away from the open slot thereby release the guide holder.

Optionally, the clamping member includes a clamping section and an elastic section connected to the clamping section, the clamping portion is formed by the clamping section, and the connecting portion and the operating portion are respectively formed on the elastic section to move the connecting portion between the locked state and the released state by applying a force to the operating portion.

Optionally, the clamping section is configured as a U-shaped structure to form the locking groove, the elastic section is connected to an open end of the locking groove and extends reversely along the first direction at intervals from the clamping section, the operation portion is located at an end of the elastic section opposite to the open end, and the connection portion is located between the open end and the operation portion.

Optionally, the connecting portion is configured as a positioning pin protruding from the clamping section toward the mounting base in a second direction, the second direction being perpendicular to the first direction, the locking portion is configured as a limiting hole extending in the second direction, the positioning pin has a first guide surface and a second guide surface, the first guide surface and the second guide surface extend obliquely from an extending end of the positioning pin toward the elastic section, respectively, in the second direction, and in the first direction, the first guide surface is located on a side of the positioning pin close to the opening end, and the second guide surface is located on a side of the positioning pin away from the opening end.

Optionally, a guide groove extending along the first direction is provided on an outer side surface of the clamping section for slidably receiving a side wall of the open groove.

Optionally, an annular clamping groove is formed on the periphery of the guide seat, a boss capable of accommodating the annular clamping groove is arranged on the bottom wall of the opening groove, and the top surface of the boss is formed into a concave arc shape suitable for the annular clamping groove.

Optionally, an avoidance groove for avoiding the clamping member is formed between the boss and the side wall of the opening groove, and an opening for clamping the mounting base is formed at the end portion, close to the mounting base, of the clamping member in the first direction.

Optionally, the locking groove is formed with an arc shape adapted to the annular locking groove at a bottom of the mounting base away from the first direction so as to be accommodated in the annular locking groove.

Optionally, the clamping member is integrally formed from a polymeric elastomer material.

The disclosure also provides a clamping piece, which is in the mounting structure.

Through above-mentioned technical scheme, in the mounting structure that this disclosure provided, shift the act as go-between along the axial and install on the guide holder, when locking state, this guide holder can form annular locking structure through the open slot of mounting base and the locking groove butt-joint of clamping piece to the backstop guide holder is at least in the removal of mounting base for first direction, plays the effect that the backstop was shifted the act as go-between promptly. Like this, can avoid shifting the line and contact of part on every side and take place to interfere, guarantee the flexibility that the line trend of shifting, and through the locking of connecting portion and locking portion, can make the holder fix on the mounting base, so that the steady reliable support of clamping groove is tight on the guide holder, avoid the shake that produces in the driving process makes the holder unable support the guide holder, and consequently produce the problem that shifting the line and part on every side take place to interfere, thereby further guaranteed the flexibility of shifting the line in the driving process. And when releasing the state, when needing to dismantle the shift cable promptly, only need just through control operation portion, just can make connecting portion activity to release the locking between connecting portion and the locking portion, and then can follow the annular locking structure between open slot and the locking groove of first direction release, release the radial backstop to the guide holder promptly, in order to realize the dismantlement of shift cable. This switching process only need the operating portion of operation holder itself just can realize, and need not set up extra connecting piece such as bolt like prior art, also need not dispose extra assembly and disassembly tools, has avoided the complicated and rust scheduling problem of bolt among the prior art to make the mounting structure of shifting the stay wire simple, and convenient operation.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

FIG. 1 is a schematic view of the mounting structure of a clamp and guide holder of a shift cable mounting structure of one embodiment provided by the present disclosure;

FIG. 2 is a schematic structural view of a mounting base of a mounting structure of a shift cable according to one embodiment of the present disclosure;

FIG. 3 is a schematic view of a guide seat of a mounting structure of a shift cable according to one embodiment of the present disclosure;

FIG. 4 is a front elevational view of a clamp of the mounting structure of a shift cable of one embodiment provided by the present disclosure;

FIG. 5 is a side elevational view of a clamp of the mounting structure of a shift cable in accordance with one embodiment of the present disclosure;

FIG. 6 is a schematic illustration of a clamp and mounting base in a locked condition in a mounting configuration of a shift cable in accordance with one embodiment of the present disclosure;

FIG. 7 is a schematic illustration of the structure of the clamp and the mounting base in an embodiment of a shift cable mounting structure provided by the present disclosure during an unlocking process;

fig. 8 is a schematic structural view of a clamping member and a mounting base in an unlocked state in a mounting structure of a shift cable according to an embodiment of the present disclosure.

Description of the reference numerals

1. Mounting base 11 open slot

12. Guide seat of locking part 2

21. Annular clamping groove 22 mounting part

3. Clamping section of clamping piece 31

311. Clamping part 312 clamping groove

32. Elastic section 321 connecting part

3211. First guide surface 3212 second guide surface

322. Operation part

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the present disclosure, unless otherwise stated, terms such as "up and down" refer to "up and down" of the mounting structure of the shift cable provided in the present disclosure in normal use, and specifically reference may be made to the direction of the drawing of the clamping member in fig. 4. The terms "inner" and "outer" refer to the "inner and outer" of the corresponding component profile. "distal" and "proximal" do not refer specifically to "distal" and "proximal" in distance, where "distal" refers to a state in which the part is relatively far from the mounting base and "proximal" refers to a state in which the part is relatively close to the mounting base. In addition, "first", "second", and the like are used to distinguish one element from another element, and do not have order or importance. Furthermore, the following description refers to the same elements throughout the several views.

According to an embodiment of the present disclosure, there is provided a mounting structure of a shift cable, one of which is illustrated in fig. 1 to 8. As shown in fig. 1 to 5, the mounting structure of the shift cable includes a mounting base 1 (e.g., a vehicle frame), a guide holder 2, and a clamp 3, wherein the mounting base 1 is provided with an open groove 11 accommodating the guide holder 2, the guide holder 2 is provided with a mounting portion 22 for mounting the shift cable, the clamp 3 has a connecting portion 321 and a clamp portion 311, the clamp 3 is formed with a locking groove 312 that is snapped onto the open groove 11 in a first direction, the mounting base 1 is provided with a locking portion 12 that mates with the connecting portion 321, and the clamp 3 is formed with an operating portion 322 that moves the connecting portion 321, the mounting structure has a locked state in which the locking groove 312 is snapped onto the open groove 11, the connecting portion 321 is locked with the locking portion 12, and a released state in which the connecting portion 321 is unlocked from the locking portion 12 such that the locking groove 312 is separated from the open groove 11 to release the guide holder 2.

The opening groove 11 is used for accommodating the guide seat 2, and is buckled on the opening groove 11 through the locking groove 312 to form an annular locking structure, so that the guide seat is stopped from moving in the first direction. Wherein the operation portion 322 on the clamping member 3 can move the connection portion 321, and based on the characteristic that the connection portion 321 can move, the connection state between the connection portion 321 and the locking portion 12 can be changed, that is, the connection portion 321 and the mounting base 1 can be selectively released by the operation portion 322, so that the clamping member 3 and the mounting base 1 have a locking state and a releasing state. In the locked state, the guide holder 2 is disposed on the open slot 11, and the locking slot 312 is engaged with the open slot 11 and abuts against the guide holder 2 to stop the movement of the guide holder in the first direction, at this time, the operating portion 322 does not act, and the connecting portion 321 and the locking portion 12 remain locked to stop the movement of the clamp 3 in the second direction relative to the mounting base 1, so that the clamp 3 is fixed to the mounting base 1 to achieve the mounting of the shift cable. In the released state, the control operation portion 322 operates the connection portion 321, and at this time, the position of the connection portion 321 changes relative to the position when in the locked state, so that the connection portion 321 can be unlocked from the locking portion 12, and the locking groove 312 is far from the opening groove 11, that is, the annular locking structure of the locking groove 312 and the opening groove 11 is released, so that the guide holder 2 is released, and the shift wire is detached.

Through above-mentioned technical scheme, in the mounting structure that this disclosure provided, shift the act as go-between along the axial and install on the guide holder 2, when locking state, this guide holder 2 can form annular locking structure through the open slot 11 of mounting base 1 and the card of holder 3 to the stopper guide holder 2 is at least in the removal of mounting base 1 for example in first direction, plays the effect that the backstop was shifted the act as a go-between promptly, like this, can avoid shifting to act as go-between and the part contact around and take place to interfere, guarantees the compliance that the trend of shifting the act as go-between. And through the locking of connecting portion 321 and locking portion 12, can make holder 3 fixed on mounting base 1 to make the steady reliable tight on guide holder 2 of clamping groove 312, avoid the shake that produces in the driving process makes holder 3 unable tight guide holder 2, and consequently produces the problem that the part on the side of shifting acted as go-between and takes place to interfere, thereby further guaranteed the compliance of shifting acted as go-between in the driving process. When in a release state, namely when the shift cable needs to be detached, the connecting part 321 can be moved only by controlling the operating part 322, so that the locking between the connecting part 321 and the locking part 12 is released, and then the annular locking structure between the opening groove 11 and the locking groove 312 can be released along the first direction, so that the radial stop of the guide seat 2 is released, namely the shift cable is detached. This disassembly process can be achieved by only operating the operating portion 322 of the clamping member 3 itself, without providing additional connecting members such as bolts and the like as in the prior art, and without configuring additional disassembly tools, and problems of complex operation, rust of bolts and the like in the prior art are avoided, so that the installation structure of the gear shifting stay wire is simple and the operation is convenient.

In the present disclosure, as an alternative embodiment, the mounting base 1 is a vehicle frame, i.e., the guide holder 2 and the clip 3 are directly mounted to the vehicle frame, thereby simplifying the mounting structure. Of course, the mounting base 1 may be any other independent component mounted on the frame, such as a mounting base welded on the frame. The mounting portion 22 of the guide holder 2 is configured as a through hole for the shift wire to pass through, and in addition, the mounting portion 22 may be formed in any suitable structure such as a mounting groove, which is not limited in this disclosure.

In addition, it should be noted that, according to the actual disclosure, the first direction in the present disclosure is generally a vertical direction, which is one of the radial directions of the shift cable, and the second direction is generally a horizontal direction, i.e. perpendicular to the first direction, which can be understood as the axial direction of the shift cable.

Wherein the clamping member 3 may be configured in any suitable manner. In one embodiment provided by the present disclosure, as shown in fig. 4 and 5, the clamping member 3 includes a clamping section 31 and an elastic section 32 connected to the clamping section 31, wherein the clamping portion 311 is formed by the clamping section 31, and the connection portion 321 and the operation portion 322 are formed on the elastic section 32, respectively. In this way, when the force is applied to the operation portion 322 based on the elastic characteristic of the elastic portion 32, the elastic portion 32 will deform, and since the operation portion 322 and the connection portion 321 are both formed on the elastic portion 32, it is beneficial to apply the elastic deformation of the operation portion 322 to the connection portion 321 in a linkage manner, so that the position of the connection portion 321 changes relative to the position before the force is applied, and the connection state of the connection portion 321 and the locking portion 12 is changed, so as to achieve quick detachment of the shift cable.

Specifically, as shown in fig. 4, the holding section 31 is configured in a U-shaped structure to form the locking groove 312, the elastic section 32 is connected to an open end of the locking groove 312 of the U-shaped structure and extends reversely in the first direction at a distance from the holding section 31, the operation portion 322 is located at an end of the elastic section 32 opposite to the open end, and the connection portion 321 is located between the open end and the operation portion 322. The clamping section 31 is constructed in a U-shaped configuration and the operating portion 322 extends reversely to an outer end away from the mounting base 1, thereby accommodating a manual operation mode by a person concerned, and facilitating the mounting and dismounting of the operator. Meanwhile, the connecting portion 321 is located between the opening end and the operating portion 322, so that when an acting force is applied to the operating portion 322, it is ensured that elastic deformation generated by the elastic section 32 effectively acts on the connecting portion 321 to smoothly unlock.

Wherein the connecting portion 321 may be configured in any suitable manner. Further, as an alternative embodiment, as shown in fig. 4 and 5, the connecting portion 321 is configured as a positioning pin protruding from the clip section 31 toward the mounting base 1 in the second direction, the lock portion 12 is configured as a stopper hole extending in the above second direction, the positioning pin has a first guide surface 3211 and a second guide surface 3212, the first guide surface 3211 and the second guide surface 3212 extend obliquely from the protruding end of the positioning pin toward the elastic section 32, respectively, in the second direction, and in the first direction, the first guide surface 3211 is located on a side of the positioning pin near the opening end of the U-shaped structure, and the second guide surface 3212 is located on a side of the positioning pin facing away from the opening end.

Thus, since the second direction is perpendicular to the first direction, in a specific working process, when the clamping member 3 is mounted downward along the first direction and the positioning pin has not moved into the limiting hole, the positioning pin is in direct contact with the mounting base 1 and deforms the elastic section 32 of the clamping member 3 under the reaction force of the mounting base 1, at this time, the positioning pin may be inclined downward as a whole so that the second guide surface 3212 may be attached to the surface of the mounting base 1. That is, during the mounting process, the elastic deformation effect generated by the elastic section can enable the second guide surface 3212 to abut approximately in parallel against the outer surface of the mounting base 1, thereby helping to stably guide the positioning pin to rapidly move downward along the mounting base 1.

When the positioning pin moves to the limiting hole, the positioning pin can be automatically inserted into the limiting hole under the action of the elastic restoring force of the elastic section 32, as shown in fig. 6, at this time, the second guiding surface 3212 of the positioning pin can be propped against the inner wall of the limiting hole extending along the second direction, and the locking of the positioning pin and the limiting hole is realized under the action of the elastic restoring force.

In the unlocked state, the operator is required to first apply a force to the operation portion 322, and the force is transmitted to the positioning pin so that the positioning pin slides downward in the first direction under the guidance of the first guide surface 3211, as shown in fig. 7, and the second guide surface 3212 is not in contact with the inner wall of the stopper hole. The force continues to be applied, the contact area between the first guide surface 3211 and the limiting hole becomes gradually smaller until the positioning pin and the limiting hole are staggered, that is, the first guide surface 3211 of the positioning pin may abut against the outer surface of the mounting base 1, as shown in fig. 8, at this time, by applying a force obliquely rearward to the operation portion 322 in a direction away from the mounting base 1, the clamping member 3 may be taken out upward while the positioning pin and the limiting hole are kept in a disengaged state, so that the annular locking structure formed by the locking groove 312 and the opening groove 11 is released, and the guide seat 2 is released, that is, the unlocking is achieved. In addition, as the extending section of the positioning pin is provided with two inclined planes, the positioning pin can be conveniently inserted into the positioning hole.

Of course, in other embodiments, the second guiding surface 3212 of the positioning pin may not be disposed, that is, the upper surface of the positioning pin extends in parallel in the second direction, that is, is not disposed obliquely with respect to the second direction, so that the positioning pin can be inserted into the limiting hole and abut against the wall of the limiting hole by the elastic action of the elastic section 32, so as to maintain the locking between the clamping member 3 and the mounting base 1, and the first guiding surface 3211 may not be disposed as an inclined surface, in which case, during the unlocking process, the operator needs to apply a force to the elastic section 32 away from the outer surface of the mounting base 1 in the second direction through the operation section 322, so that the positioning pin can be separated from the limiting hole, and then the clamping member 3 can be removed from the limiting hole in the first direction, so that the locking between the clamping member 3 and the mounting base 1 can be released.

In an alternative embodiment, the diameter of the positioning pin is 5mm, the length is 2mm-3mm, and the inclination angle of the guiding surface of the positioning pin is 45 °, so that not only the connection strength of the positioning pin and the limiting hole in unidirectional locking can be ensured, but also the deformation amount of the positioning pin can be controlled within the elastic deformation range required by unlocking when unlocking, that is, the elastic deformation generated when the operating part 322 is pressed can act on the positioning pin, so that the locking of the positioning pin and the limiting hole can be effectively unlocked. In addition, through the connection mode, the positioning pin and the limiting hole can not damage the structure of the positioning pin and the limiting hole in the locking state or the releasing state, so that the mounting structure can be disassembled and assembled for multiple times, and the positioning pin and the limiting hole have better economical efficiency. In addition, the connection portion 321 may be configured as any other suitable structure, such as a buckle, a barb, etc., which is not limited by the present disclosure.

In the present disclosure, the clamping section 31 may be configured in any suitable manner. As an alternative embodiment, as shown in fig. 5, a guide groove extending in the first direction is provided on the outer side surface of the holding section 31 for slidably receiving the side wall of the open groove 11. Like this, the card slot 312 is when buckling with open slot 11, through the guide way on open slot 11 along the slip of first direction, be convenient for holder 3 quick assembly on mounting base 1 to improve installation effectiveness, and, can stop holder 3 and remove along the groove width direction of open slot 11 on mounting base 1, further guaranteed the spacing reliability of holder 3 on mounting base 1, in addition can also establish holder 3 and the direct effort of mounting base 1 in the assembly process, this effort is the pressure that makes elastic segment 32 warp.

In the present disclosure, the rod guide 2 may be configured in any suitable manner. In a specific embodiment, as shown in fig. 3, an annular clamping groove 21 is formed on the periphery of the guide seat 2, a boss capable of accommodating the annular clamping groove 21 is arranged on the bottom wall of the opening groove 11, and the top surface of the boss is formed into a concave arc shape suitable for the annular clamping groove 21, so that the contact mode between the annular clamping groove 21 and the concave arc-shaped boss is surface contact, and the gravity of the guide seat 2 and the vibration force of a stay wire can be uniformly transmitted to all positions of the boss in the bearing process of the boss, so that the stress of the mounting base 1 is uniform. And, the annular clamping groove 21 structure of the guide seat 2 can stop the guide seat from moving upwards relative to the mounting base 1 in the second direction, namely the axial direction of the stay wire, so that the limiting reliability is ensured. In other embodiments, the guide holder 2 may also be configured to have other protruding structures at two ends, which will not be described in detail in this disclosure.

Specifically, in an alternative embodiment, a relief groove for relieving the clip 3 is formed between the boss and the side wall of the opening groove 11, and the clip 3 is formed with an opening for gripping the mounting base 1 near the end of the mounting base 1 in the first direction. Thus, the clamping member 3 can move more along the first direction through avoiding the groove and the opening so as to abut against the guide seat 2, thereby ensuring the reliability of the clamping member 3.

In one embodiment of the present disclosure, as shown in fig. 4 and 5, the locking groove 312 is formed with an arc shape adapted to the annular locking groove 21 at a bottom portion far away from the mounting base 1 in the first direction, so that the locking groove 312 abuts against the guide holder 2, and the locking groove 312 is in surface contact with the guide holder 2, so that a clamping force between the locking groove 312 and the guide holder 2 is uniform, and the problem that the locking groove 312 or the guide holder 2 is deformed due to concentration of stress is avoided.

In one embodiment of the present disclosure, the clamping member 3 is integrally formed of a polymeric elastic material, so that not only the connection strength between the components of the clamping member 3 and the elasticity of the elastic section can be effectively ensured, but also the manufacturing can be facilitated and the production cost can be reduced. Of course, the clamping member 3 may be formed separately, but it should be noted that at least the operation portion 322 is made of a polymer elastic material, so that the connection portion 321 can move when the operation portion 322 is stressed, thereby ensuring that the connection portion 321 and the locking portion 12 are unlocked smoothly. The polymer elastic material may be any suitable material such as plastic, rubber, etc., which is not limited in this disclosure.

According to another aspect of the present disclosure, there is provided a clip 3, the clip 3 being the clip 3 in the above-described mounting structure, and having the characteristics of the above-described clip 3.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations are not described further in this disclosure in order to avoid unnecessary repetition.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (10)

1. The utility model provides a mounting structure of shift cable, its characterized in that includes mounting base (1), guide holder (2) and holder (3), mounting base (1) is equipped with and holds open slot (11) of guide holder (2), guide holder (2) are equipped with and are used for installing installation department (22) of shift cable, holder (3) have connecting portion (321) and clamping part (311), holder (3) are formed with along first direction butt-buckling in locking groove (312) on open slot (11), be equipped with on mounting base (1) with locking portion (12) of connecting portion (321) matched with, and be formed with on holder (3) and make connecting portion (321) movable operating portion (322), mounting structure has locking state and release state locking state, locking groove (312) with open slot (11) butt-buckling, connecting portion (321) with locking portion (12) cooperation is locked, release state operating portion (321) makes locking portion (322) are kept away from through connecting portion (321) and thus release portion (12).

2. The mounting structure according to claim 1, wherein the clip (3) includes a clip section (31) and an elastic section (32) connected to the clip section (31), the clip portion (311) is formed by the clip section (31), and the connecting portion (321) and the operating portion (322) are formed on the elastic section (32) respectively to move the connecting portion (321) between the locked state and the released state by applying a force to the operating portion (322).

3. The mounting structure according to claim 2, wherein the holding section (31) is configured in a U-shaped structure to form the locking groove (312), the elastic section (32) is connected to an open end of the locking groove (312) and extends reversely in the first direction at a distance from the holding section (31), the operating portion (322) is located at an end of the elastic section (32) opposite to the open end, and the connecting portion (321) is located between the open end and the operating portion (322).

4. A mounting structure according to claim 3, characterized in that the connecting portion (321) is configured as a positioning pin protruding from the clamping section (31) in a second direction towards the mounting base (1), the second direction being perpendicular to the first direction, the locking portion (12) is configured as a limiting hole extending in the second direction, the positioning pin has a first guide surface (3211) and a second guide surface (3212), in the second direction the first guide surface (3211) and the second guide surface (3212) each extend obliquely from the protruding end of the positioning pin towards the elastic section (32), and in the first direction the first guide surface (3211) is located on a side of the positioning pin close to the opening end, and the second guide surface (3212) is located on a side of the positioning pin facing away from the opening end.

5. The mounting structure according to any one of claims 2-4, characterized in that the outer side of the clamping section (31) is provided with a guide groove extending in the first direction for slidably receiving a side wall of the open groove (11).

6. The mounting structure according to claim 1, characterized in that the periphery of the guide holder (2) is formed with an annular clamping groove (21), the bottom wall of the opening groove (11) is provided with a boss capable of accommodating the annular clamping groove (21), and the top surface of the boss is formed into a concave arc shape adapted to the annular clamping groove (21).

7. The mounting structure according to claim 6, wherein a relief groove that is to be relieved from the clip member (3) is formed between the boss and a side wall of the opening groove (11), and an opening for clamping the mounting base (1) is formed in the clip member (3) near an end portion of the mounting base (1) in the first direction.

8. The mounting structure according to claim 6, wherein the locking groove (312) is formed with an arc shape in the first direction away from the bottom of the mounting base (1) to accommodate the annular locking groove (21) to be accommodated in the annular locking groove (21).

9. The mounting structure according to claim 1, characterized in that the clip (3) is integrally formed of a polymeric elastic material.

10. Clamping element, characterized in that the clamping element (3) is the clamping element (3) in a mounting structure according to any one of claims 1-9.