CN115899505A - Open-air monitoring devices's installing support - Google Patents

Abstract

The invention provides a mounting bracket of a field monitoring device, which comprises a bracket body, wherein a fixing structure and an impact structure are arranged on the bracket body, the impact structure is arranged on the surface of the bracket body and can impact the bracket body so as to drive the bracket body to be inserted into the ground to a preset depth, the fixing structure is arranged in the bracket body and is provided with an operation end, when the impact structure drives the bracket body to be inserted into the preset depth, the operation end is rotated, and the fixing structure fixes the bracket body. The mounting bracket not only can provide stable mounting conditions for the field monitoring device, but also has simple structure and convenient and quick mounting, and is beneficial to the quick mounting and deployment of the field monitoring device so as to carry out field monitoring in the subsequent process.

Description

Open-air monitoring devices's installing support

Technical Field

The invention relates to the technical field of field monitoring equipment, in particular to a mounting bracket of a field monitoring device.

Background

China is located at the convergence part of the Pacific ocean tectonic zone and the himalayan tectonic zone, the collision of Pacific ocean plates and Indian plates on Asian plates forms the terrain structure and the basic topographic profile of China, and is also the main reason causing a great variety of geological disasters of China.

In geological disasters 'monitoring, early use GPS basic station monitoring as the owner, along with the development of science and technology, monitoring means such as big dipper basic station that monitoring means is more accurate replaces the GPS basic station gradually and goes on, but monitoring devices such as big dipper basic station need have firm support basis when setting up in the field, and open-air monitoring devices such as the auxiliary equipment of big dipper basic station are heavier, and is more troublesome during the installation, is unfavorable for monitoring devices's quick installation and deploys.

Disclosure of Invention

Therefore, the invention provides a mounting bracket of a field monitoring device, which is used for solving the problem that the field monitoring device is inconvenient to mount in the field.

The invention provides a mounting bracket of a field monitoring device, which comprises:

the support body, be equipped with fixed knot on the support body and strike the structure, strike the structure setting and be in the surface of support body just can be right thereby the support body forms to strike and drives the support body inserts ground to the predetermined degree of depth, fixed knot constructs the setting and is in support body is inside and leaves the operation end, works as strike the structure and drive the support body rotates when inserting to the predetermined degree of depth the operation end, fixed knot constructs will the support body is fixed.

As a further alternative of the mounting bracket of the field monitoring device, the bracket body is in a shape of a round rod with a smooth surface and is of a hollow structure inside.

As a further alternative of the mounting bracket of the field monitoring device, one end of the bracket body is provided with an opening communicated with the hollow structure inside, and the other end of the bracket body is provided with a conical tip.

As a further alternative of the mounting bracket of the field monitoring device, the impact structure includes a heavy object block and a baffle flange, the heavy object block is provided with a mounting hole, the heavy object block is movably disposed on the surface of the bracket body through the mounting hole, the baffle flange is fixedly disposed on the surface of the bracket body and located on the lower portion of the heavy object block, and the heavy object block can impact the baffle flange.

As a further alternative of the mounting bracket of the field monitoring device, the fixing structure includes a fixing component and a rotating component, the fixing component is disposed on the rotating component, and the rotating component rotates to drive the fixing component to extend and fix the bracket body.

As a further alternative of the mounting bracket of the field monitoring device, the rotating assembly comprises a rotating assembly and a rotating disk, the rotating disk is arranged at the opening and connected with one end of the rotating rod, and the rotating disk forms the 3 operating ends.

As a further alternative of the mounting bracket of the field monitoring device, a slot is formed in the tip portion, a bearing is arranged in the slot, and the other end of the rotating rod is arranged in the slot through the bearing.

As a further optional scheme of above-mentioned open-air monitoring devices's installing support, fixed subassembly includes link mechanism and fixed disk, the fixed disk is fixed on the dwang and fixed connection link mechanism, link mechanism is equipped with a plurality ofly and the equipartition is in on the fixed disk.

As a further alternative of the mounting bracket of the field monitoring device, the link mechanism includes a first link and a second link, the bracket body is further provided with a through hole corresponding to the link mechanism, one end of the first link is fixedly connected to the fixed disk, the other end of the first link is movably connected to one end of the second link, and the end of the other end of the second link is located at the through hole in the contracted state of the link mechanism.

As a further alternative of above-mentioned open-air monitoring devices's installing support, fixed subassembly still includes the ratchet and is used for preventing pawl, the round pin axle that the ratchet reverses, the ratchet sets up on the dwang, the round pin axle is relative the ratchet is fixed on the inner wall of support body one side, it has the connecting hole to open on the pawl, the pawl passes through the connecting hole is connected the round pin axle and with the ratchet joint.

As a further optional scheme of the mounting bracket of the field monitoring device, the fixing assembly further comprises a shifting lever, one end of the shifting lever is connected with and fixedly connected with the pawl, an inserting block is arranged at the other end of the shifting lever, a U-shaped groove communicated with the opening is formed in the bracket body, the U-shaped groove corresponds to the position of the pin shaft, the inserting block is arranged in the U-shaped groove, the inserting block is shifted to move in the U-shaped groove, and the shifting lever drives the pawl to be connected with or separated from the ratchet wheel in a clamping mode.

The embodiment of the invention has the following beneficial effects:

the invention provides an installation support of a field monitoring device, which comprises a support body provided with a fixed structure and an impact structure, wherein the impact structure is arranged on the surface of the support body, the fixed structure is arranged inside the support body, an operation end is reserved outside the support body, the impact structure can impact the support body to a certain degree so as to enable the support body to be inserted into the ground to a preset depth, and then the operation end is used for driving the fixed structure to fix the support body, so that the field monitoring device can be stably and conveniently installed through the installation support. The mounting bracket not only can provide a stable mounting base for the field detection bracket, but also has simple structure and convenient and quick installation, and is beneficial to improving the efficiency of the whole monitoring work.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a schematic view of the overall structure of a mounting bracket according to the present invention;

FIG. 2 is a schematic view of the internal structure of the mounting bracket of the present invention in an extended state;

FIG. 3 is a schematic view of a mounting bracket according to the present invention in a retracted state;

fig. 4 is a schematic cross-sectional view of the linkage mechanism of the mounting bracket of the present invention in a retracted state.

Description of the main element symbols:

100-a stent body; 110-a tip portion; 111-slots; 120-impact structure; 121-heavy matter pieces; 1211-mounting holes; 122-a baffle flange; 130-a fixed structure; 131-rotating rod; 132-a turntable; 133-linkage mechanism; 1331-a first link; 1332-a second link; 134-fixed disk; 135-ratchet wheel; 136-a pawl; 137-pin shaft; 138-a deflector rod; 139-an insert; 140-a through hole; 150-U-shaped groove; 160-opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

The mounting bracket of the field monitoring device provided by the invention not only can provide a stable mounting foundation for mounting the field monitoring device, but also has the advantages of simple structure, convenience and rapidness in mounting, and is beneficial to rapidly mounting and deploying the field monitoring device in the follow-up process and improving the efficiency of the whole monitoring work.

Referring to fig. 1 to 4, the mounting bracket for a field monitoring device according to the present invention includes a bracket body 100.

Be equipped with fixed knot structure 130 and impact structure 120 on support body 100, thereby impact structure 120 activity sets up on support body 100's surface and can form the impact to support body 100 and drive support body 100 and insert ground to predetermined degree of depth, fixed knot constructs 130 and sets up inside support body 100 and leaves the operation end, rotates the operation end when impact structure 120 drives support body 100 and inserts to predetermined degree of depth, fixed knot constructs 130 and fixes support body 100.

This application passes through support body 100, fixed knot constructs 130 and impact structure 120's design, impact structure 120 sets up the surface at support body 100 and can be formed with certain percussion to support body 100, impel support body 100 to insert earth from the earth's surface downwards through percussion, fixed knot constructs 130 and then sets up the inside at support body 100 and leaves the operation end in support body 100 outside, insert ground to predetermined degree of depth after support body 100 under impact structure 120's percussion, just can drive fixed knot constructs 130 and form fixedly to support body 100 through rotating the operation end, in order to prevent that support body 100 from taking place to empty, installation and monitoring for follow-up open-air monitoring devices provide stable basis. The mounting bracket is simple in structure, convenient and fast to mount, and beneficial to improving the efficiency of overall monitoring work.

In some embodiments, referring to fig. 1-2, the stent body 100 has a smooth surface and a round rod shape and a hollow structure inside.

Here, the bracket body 100 is configured in a round bar shape with a smooth surface and an internal hollow structure, the smooth surface facilitates the movement of the impact structure 120 on the surface of the bracket body 100 to impact the bracket body 100 to promote the bracket body 100 to be fixed in the soil deep into the ground, and the internal of the bracket body 100 is configured in a hollow structure to provide a receiving space for the installation of the fixing structure 130 in the bracket body 100.

In one embodiment, referring to fig. 1-2, the stent body 100 has an opening 160 formed at one end thereof for communicating with the hollow structure inside and a tapered tip 110 formed at the other end thereof.

By the design of the opening 160, the fixing structure 130 is disposed inside the stand body 100 through the opening 160, and by the tapered tip 110 disposed on the stand body 100, when the stand body 100 stands on the ground, it can be inserted into the ground first through the tapered tip 110 and form an insertion point, and the stand body 100 is continuously inserted into the ground with reference to the insertion point under the impact of the impact structure 120.

In an embodiment, referring to fig. 1-2, the impact structure 120 includes a weight block 121 and a baffle flange 122, the weight block 121 is provided with a mounting hole 1211, the weight block 121 is movably disposed on the surface of the bracket body 100 through the mounting hole 1211, the baffle flange 122 is fixedly disposed on the surface of the bracket body 100 and located at a lower portion of the weight block 121, and the weight block 121 can impact on the baffle.

It should be noted here that the baffle flange 122 is located at the lower portion of the weight block 121, that is, the baffle flange 122 is located below the weight block 121 when the bracket body 100 is in the upright state, and therefore, it is designed that the weight block 121 is installed on the surface of the bracket body 100 through the installation hole 1211, when the bracket body 100 is inserted into the ground first through the tapered tip portion 110 to form an insertion point, the weight block 121 is lifted up along the surface of the bracket body 100 and the weight block 121 slides down on the surface of the bracket body 100 and impacts the baffle flange 122 below, at this time, the weight block 121 is equivalent to a sliding block, the bracket body 100 with a smooth surface is equivalent to a sliding track of the sliding block, the weight block 121 is lifted up repeatedly to make the weight block 121 impact the baffle flange 122 on the bracket body 100 continuously, the generated impact force drives the bracket body 100 in the upright state to be inserted into the ground through the baffle flange 122 without being broken, and it is also worth noting that, in order to ensure that the weight block 121 sleeved on the bracket body 100 through the bracket body 100 can be able to slide up and down on the smooth surface, and the baffle flange 121 can be ensured that the baffle flange 121 can impact the baffle flange 122 and the baffle 100 can not be larger than the baffle flange 121 can be impacted when the height of the baffle flange 121.

Further, in a specific embodiment, referring to fig. 2, the fixing structure 130 includes a fixing component and a rotating component, the fixing component is disposed on the rotating component, and the rotating component rotates to drive the fixing component to extend and fix the bracket body 100.

Here, the rotating assembly rotates to extend the fixing assembly to provide power for fixing the support body 100 through the fixing structure 130 formed by the rotating assembly and the fixing assembly arranged on the rotating assembly.

In some embodiments, referring to fig. 2, the rotating assembly includes a rotating rod 131 and a rotating disc 132, the rotating disc 132 is disposed at the opening 160 and connected to one end of the rotating rod 131, and the rotating disc 132 forms an operation end.

From this design, the carousel 132 rotates, and the dwang 131 that carousel 132 was connected to one end rotates under the drive of carousel 132 to further drive fixed subassembly and extend and fix support body 100.

In one embodiment, referring to fig. 1, the tip portion 110 has a slot 111 therein, and the slot 111 has a bearing therein, and the other end of the rotating rod 131 is disposed in the slot 111 through the bearing.

Through the arrangement of the slot 111 and the bearing (not shown in the figure), one end of the rotating rod 131 is connected to the rotating disc 132 and is driven by the rotating disc 132 to rotate, and the other end of the rotating rod 131 is mounted in the slot 111 of the tip portion 110 through the bearing, so that the rotating rod 131 does not rotate the whole stent body 100 under the action of the bearing.

In an embodiment, referring to fig. 2, the fixing component includes a link mechanism 133 and a fixing plate 134, the fixing plate 134 is fixed on the rotating rod 131 and is fixedly connected to the link mechanism 133, and the link mechanism 133 is provided in plurality and uniformly distributed on the fixing plate 134.

From this design, when dwang 131 rotates, thereby fixed disk 134 also follows dwang 131 simultaneously and rotates and make link mechanism 133 also rotate thereupon and stretch out support body 100 outside under the effect of the rotatory power and insert earth in to support body 100 formation fixed, including link mechanism 133 is equipped with a plurality ofly and equipartition on fixed disk 134, helps improving the stability when link mechanism 133 is fixed to support body 100.

Further, in a specific embodiment, referring to fig. 2-4, the link mechanism 133 includes a first link 1331 and a second link 1332, the bracket body 100 is further provided with a through hole 140 opposite to the link mechanism 133, one end of the first link 1331 is fixedly connected to the fixed tray 134, the other end is movably connected to one end of the second link 1332, and the other end of the second link 1332 is located at the through hole 140 in a contracted state of the link mechanism 133.

It should be noted here that, under normal conditions, that is, when the mounting bracket is not used, specifically referring to fig. 4, the link mechanism 133 is retracted inside the bracket body 100 and the end of the second link 1332 is located right at the through hole 140, so that when the rotating lever 131 and the rotating disc 132 in the above embodiments are combined, when the rotating disc 132 drives the rotating lever 131 to rotate, the rotating lever 131 further drives the fixed disc 134 to rotate, and the rotating fixed disc 134 also drives the link mechanism 133 to rotate during the rotation, and at this time, since the first link 1331 is fixed and the tip of the second link 1332 is located at the through hole 140, the second link 1332 is extended along the through hole 140 to the outside of the bracket body 100 to be inserted into the soil to fix the bracket body 100, so that the bracket body 100 is not prone to topple over.

In some embodiments, referring to fig. 2, the fixing assembly further includes a ratchet 135, a pawl 136 for preventing the ratchet 135 from reversing, and a pin 137, the ratchet 135 is disposed on the rotating rod 131, the pin 137 is fixed on an inner wall of one side of the bracket body 100 relative to the ratchet 135, the pawl 136 is provided with a connecting hole, and the pawl 136 is connected to the pin 137 through the connecting hole and is clamped with the ratchet 135.

Here, in order to prevent that the link mechanism 133 that the rotation of the rotating rod 131 causes extension from contracting back into the bracket body 100 in the using process and causing the fixing action to lose efficacy, the present application sets up the ratchet 135, the pawl 136 and the pin shaft 137 on the rotating rod 131 to prevent the rotation of the rotating rod 131, the pawl 136 is connected and fixed on the pin shaft 137 on the inner wall of the bracket body 100 through a connecting hole (not shown in the figure) during the use, therefore, after the rotating rod 131 drives the link mechanism 133 to extend out of the inside of the bracket body 100, stir the pawl 136 to insert the ratchet 135 teeth of the ratchet 135 so that the ratchet 135 is fixed and can not be reversed, the ratchet 135 can further make the rotating rod 131 not rotate in a reversible manner, thereby the link mechanism 133 can not automatically retract back into the inside to cause the fixing action to lose efficacy in the using process of the mounting bracket.

In one embodiment, referring to fig. 1-2, the fixing assembly further includes a driving lever 138, one end of the driving lever 138 is connected to the pawl 136, the other end of the driving lever 138 is provided with an insertion block 139, the bracket body 100 is provided with a U-shaped groove 150 communicating with the opening 160, the U-shaped groove 150 corresponds to the pin 137, the insertion block 139 is disposed in the U-shaped groove 150, the insertion block 139 is moved in the U-shaped groove 150, and the driving lever 138 drives the pawl 136 to be engaged with or disengaged from the ratchet 135.

According to the design, through the design of the poking rod 138 and the inserting block 139, when the rotating disc 132 is rotated to extend the connecting rod mechanism 133, the inserting block 139 is poked to move upwards in the U-shaped groove 150 firstly, so that the poking rod 138 drives the pawl 136 to be separated from the ratchet wheel 135, after the connecting rod mechanism 133 is extended, the inserting block 139 is poked downwards so that the poking rod 138 drives the pawl 136 to pass through the connecting hole and the inserting pin shaft 137 and be clamped with the ratchet wheel 135, the ratchet wheel 135 and the rotating rod 131 cannot be reversed, at the moment, the mounting support can be stably supported, when monitoring is finished, the poking and inserting block 139 moves upwards in the U-shaped groove 150 so that the pawl 136 is driven to move upwards through the poking rod 138 to be separated from being clamped with the ratchet wheel 135, and at the moment, the rotating disc 132 can be rotated to enable the rotating rod 131 to rotate, so that the connecting rod mechanism 133 is retracted to pull out the support body 100.

So as to understand the usage principle of the mounting bracket more clearly, the usage mode of the present application will be described again with reference to the above embodiments, when the mounting bracket is mounted and used, the bracket body 100 is inserted into the ground through the tapered tip 110 of the bracket body 100 to form an insertion point, then the heavy object block 121 is moved upwards to slide down along the surface of the bracket body 100 to strike the baffle flange 122, the heavy object block 121 is repeatedly moved to strike the baffle flange 122 so that the bracket body 100 is continuously inserted into the ground to a predetermined depth, after the predetermined depth is reached, the insert block 139 is moved upwards in the U-shaped groove 150 and the pawl 136 is disengaged from the ratchet 135 under the driving of the pawl 138, the rotating dial 132 drives the rotating rod 131 to rotate, the rotating rod 131 further drives the fixed disk 134 and the ratchet 135 to rotate, the fixed disk 134 drives the link mechanism 133 to rotate and extends out of the through hole 140 to insert into the bracket rotating rod 100 to form a fixed state, at this time, the insert block 139 is moved downwards in the U-shaped groove 150 and drives the pawl 136 to connect with the ratchet 135 to the pin, and the ratchet 135 to ensure that the ratchet 135 cannot be reversely clamped so that the link mechanism 133 cannot retract into the fixed body 100 to cause an automatic rotation failure; after the use is finished, the inserting and pulling block 139 moves upwards in the U-shaped groove 150 again to separate the pawl 136 from the clamping connection with the ratchet wheel 135, the rotating disc 132 is rotated again to drive the connecting rod mechanism 133 to shrink from the outside to the inside through the slotted hole, and at this time, the bracket body 100 can be pulled upwards to withdraw the mounting bracket.

The present application provides a mounting bracket for a field monitoring device, please refer to fig. 1-4, the mounting bracket comprises a bracket body 100 provided with a fixed structure 130 and an impact structure 120, the inside of the bracket body 100 is hollow, the surface is smooth and is in a round rod shape provided with a conical tip 110, the impact structure 120 is arranged on the surface of the bracket body 100 and consists of a heavy object 121 and a baffle flange 122, the baffle flange 122 is fixed on the surface of the bracket body 100, the heavy object 121 is movably arranged on the bracket body 100 through a mounting hole 1211, when in use, the heavy object 121 is repeatedly stirred to impact the baffle flange 122 to drive the bracket body 100 to be continuously inserted into the ground, the fixed structure 130 consists of a rotating component and a fixed component which are arranged inside the bracket body 100, wherein, the rotating component comprises a rotating rod 131 and a rotating disk 132, one end of the rotating rod 131 is arranged in the slot 111 of the tip part 110 through a bearing, the other end is connected with the rotating disk 132 arranged on the opening 160 of the bracket body 100, the fixing component comprises a connecting rod mechanism 133, a fixed disk 134, a ratchet wheel 135, a pawl 136, a pin shaft 137 and a deflector rod 138 provided with an inserting block 139, the fixed disk 134 and the ratchet wheel 135 are arranged on the rotating rod 131, the connecting rod mechanism 133 is connected with the fixed disk 134, the pin shaft 137 is fixed on the inner wall of the bracket body 100 and corresponds to the ratchet wheel 135, the pawl 136 is connected with one end of the deflector rod 138 and the pin shaft 137, when the stand body 100 is inserted into the ground to a certain depth, the rotary disc 132 can drive the link mechanism 133 to extend from the through hole 140 to the outside through the rotary rod 131 and the fixed disc 134 to fix the stand body 100, and when the stand body 100 is fixed, the pawl 136 is inserted into the ratchet teeth of the ratchet 135 to fix the ratchet 135, thereby preventing the occurrence of a situation in which the link mechanism 133 is automatically retracted back into the holder body 100 as a result of the inversion of the rotating lever 131. The mounting bracket not only can provide a stable mounting base for the mounting of the field monitoring device, but also has simple structure and convenient and quick mounting, and is beneficial to improving the efficiency of the whole monitoring work.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (11)

1. The utility model provides an open-air monitoring devices's installing support, its characterized in that, includes the support body, be equipped with fixed knot on the support body constructs and strikes the structure, it sets up to strike the structure the surface of support body just can be right thereby the support body forms to strike and drives the support body inserts ground to the predetermined depth, fixed knot constructs the setting and is in support body is inside and leaves the operation end, works as strike the structure and drive the support body rotates when inserting to the predetermined depth the operation end, fixed knot constructs will the support body is fixed.

2. The mounting bracket for a field monitoring device as claimed in claim 1, wherein the bracket body is a round rod with a smooth surface and a hollow structure inside.

3. The mounting bracket for a field monitoring device according to claim 2, wherein one end of the bracket body is provided with an opening communicated with the hollow structure inside and the other end is provided with a conical tip part.

4. The mounting bracket for a field monitoring device according to claim 1, wherein the impact structure comprises a heavy object block and a baffle flange, the heavy object block is provided with a mounting hole, the heavy object block is movably arranged on the surface of the bracket body through the mounting hole, the baffle flange is fixedly arranged on the surface of the bracket body and is positioned at the lower part of the heavy object block, and the heavy object block can impact the baffle flange.

5. The mounting bracket for a field monitoring device according to claim 3, wherein the fixing structure comprises a fixing component and a rotating component, the fixing component is arranged on the rotating component, and the rotating component rotates to drive the fixing component to extend to fix the bracket body.

6. The mounting bracket of a field monitoring device according to claim 5, wherein the rotating component comprises a rotating rod and a rotating disk, the rotating disk is arranged at the opening and connected with one end of the rotating rod, and the rotating disk forms the operating end.

7. The mounting bracket for the field monitoring device according to claim 6, wherein a slot is formed in the tip portion, a bearing is arranged in the slot, and the other end of the rotating rod is arranged in the slot through the bearing.

8. The mounting bracket of a field monitoring device according to claim 6, wherein the fixing component comprises a link mechanism and a fixing disc, the fixing disc is fixed on the rotating rod and fixedly connected with the link mechanism, and the link mechanism is provided with a plurality of and uniformly distributed on the fixing disc.

9. The mounting bracket for a field monitoring device according to claim 8, wherein the link mechanism comprises a first link and a second link, the bracket body is further provided with a through hole opposite to the link mechanism, one end of the first link is fixedly connected with the fixed disc, the other end of the first link is movably connected with one end of the second link, and the other end of the second link is located at the through hole in the contracted state of the link mechanism.

10. The mounting bracket for the field monitoring device according to claim 6, wherein the fixing component further comprises a ratchet wheel, a pawl for preventing the ratchet wheel from reversing and a pin shaft, the ratchet wheel is arranged on the rotating rod, the pin shaft is fixed on the inner wall of one side of the bracket body relative to the ratchet wheel, a connecting hole is formed in the pawl, and the pawl is connected with the pin shaft through the connecting hole and clamped with the ratchet wheel.

11. The mounting bracket for a field monitoring device according to claim 10, wherein the fixing assembly further comprises a shift lever, one end of the shift lever is fixedly connected to the pawl, the other end of the shift lever is provided with an insertion block, the bracket body is provided with a U-shaped groove communicated with the opening, the U-shaped groove corresponds to the pin shaft, the insertion block is arranged in the U-shaped groove, the insertion block is shifted to move in the U-shaped groove, and the shift lever drives the pawl to be clamped or separated from the ratchet wheel.

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