阅读说明：本技术 一种发动机进气歧管及其加工定位装置 (Engine intake manifold and processing and positioning device thereof ) 是由 胡松海 励超剑 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种发动机进气歧管,包括壳体,壳体上设有新风进气口、废气进气口、废气出气口以及多个出气孔,壳体内还设有混合腔；壳体上还设有进气管道以及废气进气管道,新风进气口设在进气管道的一端,废气进气口设在废气进气管的一端,混合腔的出口与气流通道连通；多个出气孔内均设有用于调节出气孔开口大小的调节板；调节板通过转轴安装在各个出气孔的内腔中,混合腔内设有螺旋导流板。本发明还公开了一种上述发动机进气歧管的加工定位装置。本发明提供的一种发动机进气歧管及其加工定位装置,实现废气与空气的充分混合,有效提高废气再利用率；并且进气歧管在机加工时能够稳定、精确的夹装定位。(The invention discloses an engine intake manifold, which comprises a shell, wherein the shell is provided with a fresh air inlet, a waste gas outlet and a plurality of air outlets, and the shell is also internally provided with a mixing cavity; the shell is also provided with an air inlet pipeline and a waste gas inlet pipeline, a fresh air inlet is arranged at one end of the air inlet pipeline, a waste gas inlet is arranged at one end of the waste gas inlet pipe, and an outlet of the mixing cavity is communicated with the airflow channel; adjusting plates for adjusting the sizes of the openings of the air outlet holes are arranged in the air outlet holes; the adjusting plate is arranged in the inner cavity of each air outlet through a rotating shaft, and a spiral guide plate is arranged in the mixing cavity. The invention also discloses a processing and positioning device of the engine intake manifold. According to the engine intake manifold and the processing and positioning device thereof, provided by the invention, the full mixing of the waste gas and the air is realized, and the waste gas reutilization rate is effectively improved; and the intake manifold can be stably and accurately clamped and positioned during machining.)

1. The utility model provides an engine intake manifold, includes casing (1), casing (1) in be equipped with airflow channel, casing (1) on be equipped with fresh air inlet (2), waste gas air inlet (3) and waste gas outlet (4) with airflow channel intercommunication respectively, casing (1) on be equipped with mounting surface (5) be connected with the end cover, mounting surface (5) on be equipped with a plurality of ventholes (6) that communicate with airflow channel, its characterized in that: a mixing chamber (7) is further arranged in the shell (1), an air inlet pipeline (8) communicated with an inlet of the mixing chamber (7) and a waste gas inlet pipeline (9) communicated with an inlet of the mixing chamber (7) are arranged on the shell (1), the fresh air inlet (2) is arranged at the other end of the air inlet pipeline (8), the waste gas inlet (3) is arranged at the other end of the waste gas inlet pipeline (9), and an outlet of the mixing chamber (7) is communicated with the airflow channel; adjusting plates (10) for adjusting the opening sizes of the air outlet holes (6) are arranged in the air outlet holes (6), and spiral guide plates are arranged in the mixing cavity (7);

casing (1) is gone up and is equipped with installation through-hole (11) that both ends link up along its length direction, just installation through-hole (11) pass the lateral wall of each venthole (6) perpendicularly, installation through-hole (11) internal rotation be equipped with pivot (12), each be equipped with connecting block (13) on regulating plate (10), connecting block (13) on be equipped with pivot (12) complex arc draw-in groove (13.1), still be equipped with fastening screw on regulating plate (10), fastening screw's tip pass connecting block (13) on the lateral wall of pivot (12).

2. The engine intake manifold of claim 1, wherein: and annular positioning grooves (12.1) are respectively arranged on the outer side wall of the rotating shaft (12) at positions corresponding to the air outlet holes (6).

3. The engine intake manifold of claim 1, wherein: be equipped with on the lateral wall of casing (1) with mounting plane (5) looks vertically mounting flange (13), waste gas air inlet (3) set up on the terminal surface of mounting flange (13).

4. The engine intake manifold of claim 1, wherein: the mounting plane (5) is provided with a plurality of connecting lugs (14) along two sides of the length direction, and the connecting lugs (14) are provided with first connecting through holes (14.1).

5. The engine intake manifold of claim 3, wherein: one side that deviates from mounting flange (13) on casing (1) just is located and is equipped with installation boss (15) on the lateral wall of admission line (8), just installation boss (15) parallel with mounting plane (5), be equipped with second connect the via hole (15.1) on installation boss (15).

6. The engine intake manifold according to claim 3 or 5, characterized in that: the side face of the shell (1) which is on the same side with the mounting flange (13) is provided with a plurality of connecting columns (16), the outer end face of each connecting column (16) is perpendicular to the mounting plane (5), and the outer end face of each connecting column (16) is provided with a third connecting hole (16.1).

7. A processing positioning device of an engine intake manifold based on any one of claims 1 to 6, comprising a fixed seat (17) for fixing with a processing machine tool, wherein a mounting base plate (18) is arranged on the fixed seat (17), and the processing positioning device is characterized in that: the mounting bottom plate (18) is provided with a supporting mechanism for positioning and supporting the lower end of the shell (1) of the intake manifold and a pressing mechanism for pressing and limiting the shell (1); the lower end of the shell (1) is also provided with an adjusting mechanism for adjusting the parallelism of the mounting plane (5) of the air inlet manifold.

8. The processing positioning device according to claim 7, wherein: the supporting structure comprises a plurality of supporting rods (19), wherein the upper ends of the supporting rods (19) are provided with positioning insertion columns (19.1) which are inserted and matched with first connecting through holes (14.1) on four corresponding connecting lugs (14) on two sides of the shell (1) in the width direction.

9. The processing positioning device according to claim 7, wherein: the pressing mechanism comprises at least two pressing components which are respectively pressed on the mounting boss (15) and the upper end of one connecting column (16) opposite to the mounting boss; the pressing assembly comprises a pressing rod (20), a first connecting rod (21) and a pressing driving cylinder (22), the lower end of the first connecting rod (21) is connected with a piston rod of the pressing driving cylinder (22), and one end of the pressing rod (20) is hinged with the upper end of the first connecting rod (21); a second connecting rod (23) is further arranged on the mounting bottom plate (1) close to the first connecting rod (21), a linkage plate (24) is hinged to the upper end of the second connecting rod (23), and the other end of the linkage plate (24) is hinged to the middle of the pressing rod (20)).

10. The tooling positioning apparatus of claim 8, wherein: the adjusting mechanism comprises a manual adjusting component and an automatic adjusting component which are supported at the lower ends of two connecting lugs (14) on the same side of the shell (1); the manual adjusting assembly comprises a first upright post (25), and the upper end of the first upright post (25) is spirally connected with an adjusting screw rod (26);

the automatic adjusting assembly comprises an installation block (27), a second upright post (28) is arranged at the upper end of the installation block (27) in a sliding mode, a limiting ejection block (29) and a limiting driving cylinder (30) are further arranged on the side wall of the installation block (27), one end of the limiting ejection block (29) abuts against the side wall of the lower end of the second upright post (28) in a limiting mode, and the other end of the limiting ejection block (29) is connected with a piston rod of the limiting driving cylinder (30).

Technical Field

The invention relates to the technical field of automobile engines, in particular to an engine intake manifold and a processing and positioning device thereof.

Background

With the increasingly strict emission and fuel consumption regulations, the design of the intake manifold of an engine as an important part for organizing intake air is continuously updated.

The existing intake manifold is relatively simple in design and has an inlet connected to the rear end of the supercharger through a pipeline, an outlet directly connected to the cylinder head, and fresh air enters the intake manifold from the inlet, exits from the outlet into the air passage of the cylinder head, and finally enters the combustion chamber for combustion. However, with the application of an exhaust gas recirculation system (EGR system for short) in an engine, the existing intake manifold cannot mix EGR exhaust gas and fresh air because the existing intake manifold does not have an EGR intake line, which requires adding an EGR intake line and a line connecting EGR with the intake manifold at other positions, thereby resulting in a less compact arrangement of the intake system. In the existing intake manifold, the flow rate of an air outlet is generally invariable, so that the application environment of the existing intake manifold is limited to a certain extent, and the existing intake manifold cannot have a wider application range.

In addition, in the prior art, a positioning mechanism for machining the intake manifold is complicated, or the positioning of the workpiece is not stable enough, so that the position degree is poor.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the defects of the prior art are overcome, the engine air inlet manifold is provided, the full mixing of waste gas and air is realized, the waste gas reutilization rate is effectively improved, and the air outlet end also has a flow regulation function.

The invention adopts a technical scheme that: the utility model provides an engine intake manifold, which comprises a shell, wherein an airflow channel is arranged in the shell, a fresh air inlet, a waste gas inlet and a waste gas outlet which are communicated with the airflow channel are respectively arranged on the shell, an installation plane connected with an end cover is arranged on the shell, a plurality of air outlet holes communicated with the airflow channel are arranged on the installation plane, a mixing cavity is also arranged in the shell, an air inlet pipeline communicated with the inlet of the mixing cavity and a waste gas inlet pipeline communicated with the inlet of the mixing cavity are arranged on the shell, the fresh air inlet is arranged at the other end of the air inlet pipeline, the waste gas inlet is arranged at the other end of the waste gas inlet pipe, and the outlet of the; adjusting plates for adjusting the sizes of the openings of the air outlet holes are arranged in the air outlet holes, and spiral guide plates are arranged in the mixing cavity;

the casing is provided with a mounting through hole with two through ends along the length direction, the mounting through hole vertically penetrates through the side wall of each air outlet hole, a rotating shaft is arranged in the mounting through hole, a connecting block is arranged on the adjusting plate, an arc-shaped clamping groove matched with the rotating shaft is arranged on the connecting block, a fastening screw is further arranged on the adjusting plate, and the end portion of the fastening screw penetrates through the connecting block and is fastened on the side wall of the rotating shaft.

After adopting the structure, compared with the prior art, the invention has the following advantages:

the intake manifold structure of the invention is provided with a waste gas inlet and a waste gas outlet which are communicated with the intake pipeline besides a conventional gas inlet and a conventional gas outlet, so that waste gas can be mixed with fresh gas through a waste gas intake channel, thereby effectively reducing pipelines and further enabling the arrangement of an intake system to be more compact; a mixing cavity is additionally arranged in the shell, so that the mixing efficiency of waste gas and fresh air is further enhanced, and the recycling rate of the waste gas is improved; in addition, an adjusting plate structure for adjusting the air outlet flow is further arranged in the air outlet of the air inlet manifold, and each adjusting plate can be rapidly assembled and disassembled through clamping and screw matching.

As an improvement, annular positioning grooves are respectively arranged on the outer side wall of the rotating shaft at positions corresponding to the air outlet holes. After setting up like this, wear to establish back in the mounting through-hole on the casing when this pivot, each regulating plate passes through the connecting block joint at the lateral wall of pivot, and each connecting block cooperatees with the corresponding positioning groove on the pivot lateral wall, realizes axial effective location, avoids the axial float.

And in the improvement, an installation flange vertical to the installation plane is arranged on the side wall of the shell 1, and a waste gas inlet is arranged on the end surface of the installation flange.

And in the improvement, a plurality of connecting lugs are arranged on two sides of the mounting plane along the length direction, and first connecting through holes are arranged on the connecting lugs. The structure enables the air inlet manifold to be more convenient and stable to install and connect.

And the mounting boss is parallel to the mounting plane, and a second connecting through hole is arranged on the mounting boss. The improved structure is more convenient for the installation of the air inlet manifold, so that the installation space layout is more reasonable, and the space utilization rate of the cavity is improved.

And the outer end face of each connecting column is vertical to the mounting plane, and the outer end face of each connecting column is provided with a third connecting hole. The structure of the connecting column is also used for realizing convenient installation of the intake manifold.

In addition, another technical problem to be solved by the present invention is how to ensure that the intake manifold can be stably and accurately clamped and positioned during machining, so as to improve the machining precision and the yield of finished products.

Correspondingly, the other technical scheme adopted by the invention is as follows: a special processing and positioning device for processing the intake manifold comprises a fixed seat used for being fixed with a processing machine tool, wherein the fixed seat is provided with a mounting bottom plate, and the mounting bottom plate is provided with a supporting mechanism used for positioning and supporting the lower end of a shell of the intake manifold and a pressing mechanism used for pressing and limiting the shell; the lower end of the shell is also provided with an adjusting mechanism for adjusting the parallelism of the mounting plane of the intake manifold.

And the upper end of the supporting rod is provided with a positioning insertion column which is inserted and matched with the first connecting through holes on the four connecting lugs corresponding to the two sides of the shell in the width direction.

Furthermore, the pressing mechanism comprises at least two pressing components, and the two pressing components are respectively pressed on the mounting boss and the upper end of one connecting column opposite to the mounting boss; the compressing assembly comprises a compression rod, a first connecting rod and a compressing driving cylinder, the lower end of the first connecting rod is connected with a piston rod of the compressing driving cylinder, and one end of the compression rod is hinged with the upper end of the first connecting rod; a second connecting rod is further arranged on the mounting bottom plate close to the first connecting rod, the upper end of the second connecting rod is hinged with a linkage plate, and the other end of the linkage plate is hinged to the middle position of the pressing rod.

Still further, the adjusting mechanism comprises a manual adjusting component and an automatic adjusting component which are arranged at the lower ends of the two connecting lugs and supported on the same side of the shell; the manual adjusting assembly comprises a first upright post, and the upper end of the first upright post is spirally connected with an adjusting screw rod;

the automatic adjusting assembly comprises an installation block, a second stand column is arranged at the upper end of the installation block in a sliding mode, a limiting ejection block and a limiting driving cylinder are further arranged on the side wall of the installation block, one end of the limiting ejection block abuts against the side wall of the lower end of the second stand column in a limiting mode, and the other end of the limiting ejection block is connected with a piston rod of the limiting driving cylinder.

Drawings

Fig. 1 is a schematic view of the structure of an intake manifold of the present invention.

Fig. 2 is a schematic view of another angle of the intake manifold of the present invention.

FIG. 3 is a schematic view of another angle configuration of the intake manifold of the present invention.

Fig. 4 is a schematic view of another angle of the intake manifold of the present invention.

Fig. 5 is a schematic view of a connection structure of a rotating shaft and an adjusting plate in the present invention.

Fig. 6 is a sectional view of an adjusting plate in the present invention.

Fig. 7 is a sectional view of a rotating shaft in the present invention.

Fig. 8 is a schematic structural view of an operating state of the positioning device in the present invention.

Fig. 9 is a schematic view of the working state of the positioning device in another angle.

Fig. 10 is a schematic structural view of the positioning device of the present invention in a state where the intake manifold is not mounted.

Fig. 11 is a schematic structural view of the automatic adjustment mechanism in the present invention.

Fig. 12 is a sectional view of the automatic adjustment mechanism in the present invention.

Specifically, 1-shell, 2-fresh air inlet, 3-waste gas inlet, 4-waste gas outlet, 5-mounting plane, 6-air outlet, 7-mixing cavity, 8-air inlet pipeline, 9-waste gas inlet pipeline, 10-adjusting plate, 11-installing through hole, 12-rotating shaft, 13-connecting block, 13.1-arc clamping groove, 14-connecting lug, 14.1-first connecting through hole, 15-mounting boss, 15.1-second connecting through hole, 16-connecting column, 16.1-third connecting hole, 17-fixing seat, 18-mounting bottom plate, 19-supporting rod, 19.1-positioning inserting column, 20-pressing rod, 21-first connecting rod, 22-tight driving cylinder, 23-second connecting rod and 24-linkage plate, 25-first upright post, 26-adjusting screw rod, 27-mounting block, 27.1-accommodating hole, 27.2-waist-shaped hole, 28-second upright post, 28.1-guiding inclined plane, 28.2-positioning convex column, 29-limiting top block, 30-limiting driving cylinder, 31-positioning screw and 32-elastic piece.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the description of the present invention, it should be noted that the terms "outer sidewall", "lower end", "upper end", "middle part", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. It should also be noted that the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the term "connected" is to be interpreted broadly, e.g. as a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-3, the intake manifold of the engine provided by the invention comprises a housing 1, an airflow channel is arranged in the housing 1, a fresh air inlet 2, an exhaust gas inlet 3 and an exhaust gas outlet 4 which are communicated with the airflow channel are respectively arranged on the housing 1, a mounting plane 5 connected with an end cover is arranged on the housing 1, and a plurality of air outlets 6 communicated with the airflow channel are arranged on the mounting plane 5.

A mixing chamber 7 is further arranged in the shell 1, an air inlet pipeline 8 communicated with an inlet of the mixing chamber 7 and a waste gas inlet pipeline 9 communicated with an inlet of the mixing chamber 7 are arranged on the shell 1, a fresh air inlet 2 is arranged at the other end of the air inlet pipeline 8, a waste gas inlet 3 is arranged at the other end of the waste gas inlet pipeline 9, and an outlet of the mixing chamber 7 is communicated with an airflow channel; all be equipped with in a plurality of ventholes 6 and be used for adjusting 6 opening sizes of ventholes's regulating plate 10, be equipped with spiral guide plate in the hybrid chamber 7. Specifically, as shown in fig. 2 and 3, one of the air outlets 6 on the mixing cavity 7 and the mounting plane 5 in this structure is vertically communicated, that is, the spiral guide plate can be stretched into the mixing cavity 7 through the air outlet 6 during mounting, so that the sufficient mixing of the waste gas and the fresh air is realized, the mixed waste gas enters each cylinder again to operate, thereby effectively reducing other pipelines for recycling the waste gas, and further making the structure of the air intake system simpler and more compact. In this embodiment, this admission line 8 and waste gas intake pipe 9 and 1 formula structures as an organic whole of casing, integral die-casting shaping has avoided the later stage to connect and has produced new leak point to, integral die-casting shaping, it is convenient to make, and the cost is lower.

On the other hand, as shown in fig. 4-6, the housing 1 is provided with a mounting through hole 11 having two through ends along the length direction thereof, the mounting through hole 11 vertically penetrates through the side wall of each air outlet hole 6, the rotating shaft 2 is rotatably provided in the mounting through hole 11, each adjusting plate 10 is provided with a connecting block 13, the connecting block 13 is provided with an arc-shaped slot 13.1 matched with the rotating shaft 12, the adjusting plate 10 is further provided with a fastening screw (not shown), and the end of the fastening screw penetrates through the connecting block 13 and is tightly fixed on the side wall of the rotating shaft 12. In this structure, be equipped with countersunk screw hole 10.1 on the terminal surface of regulating plate 10, fastening screw wears to establish in countersunk screw hole 10.1 to this fastening screw's tip supports to lean on the location on the lateral wall of pivot 12, realizes the remaining pivot 12's of regulating plate 10 fixed connection.

More specifically, as shown in fig. 7, in this embodiment, annular positioning grooves 12.1 are respectively disposed on the outer side wall of the rotating shaft 12 at positions corresponding to the air outlet holes 6, the structure is mainly for limiting the axial direction of each adjusting plate 10, and when the rotating shaft 12 rotates, each adjusting plate 10 does not move along the axial direction. In this structure, a plurality of regulating plates 10 correspond respectively and establish in venthole 6, and every regulating plate 10 can both rotate round pivot 12 in the venthole 6 that corresponds, during practical application, still can be equipped with corresponding actuating mechanism in the outside of casing 1, actuating mechanism and pivot 12 linkage, when the flow of giving vent to anger needs to be adjusted, actuating mechanism drive pivot 12 rotates, thereby drive regulating plate 10 and rotate along pivot 12, adjust the opening size of venthole 6, thereby realize the regulation of the flow of giving vent to anger.

In the present embodiment, a mounting flange 13 perpendicular to the mounting plane 5 is provided on the side wall of the casing 1, and the exhaust gas inlet 3 is provided on the end face of the mounting flange 13. The two sides of the mounting plane 5 along the length direction are provided with a plurality of connecting lugs 14, and the connecting lugs 14 are provided with first connecting through holes 14.1. The side of the casing 1 departing from the mounting flange 13 and located on the outer side wall of the air inlet pipe 8 is provided with a mounting boss 15, the mounting boss 15 is parallel to the mounting plate (5), and the mounting boss 15 is provided with a second connecting through hole 15.1.

The side face of the shell 1, which is the same with the mounting flange 13, is provided with the connecting columns 16, the outer end face of each connecting column 16 is perpendicular to the mounting plane 5, and the outer end face of each connecting column 16 is provided with the third connecting hole 16.1.

Correspondingly, the invention also discloses a processing and positioning device of the intake manifold, which comprises a fixed seat 17, a support mechanism and a pressing mechanism, wherein the fixed seat 17 is used for being fixedly connected and positioned with a machine tool, the fixed seat 17 is provided with a mounting bottom plate 18, and the mounting bottom plate 18 is provided with the support mechanism which is used for being positioned and supported at the lower end of the shell 1 of the intake manifold and the pressing mechanism which is used for being pressed and limited on the shell 1; the lower end of the housing 1 is also provided with an adjustment mechanism for adjusting the parallelism of the mounting plane 5 of the intake manifold.

Specifically, as shown in fig. 8 and 10, the supporting structure includes a plurality of supporting rods 19, and the upper ends of the supporting rods 19 are provided with positioning insertion posts 19.1 which are inserted into and matched with the first connecting through holes 14.1 of the four connecting lugs 14 corresponding to the two sides of the housing 1 in the width direction.

As shown in fig. 8, 9 and 10, the pressing mechanism includes at least two pressing components, and the two pressing components are respectively pressed on the mounting boss 15 and the upper end of one connecting column 16 opposite to the mounting boss; the compressing assembly comprises a compression rod 20, a first connecting rod 21 and a compressing driving cylinder 22, the lower end of the first connecting rod 21 is connected with a piston rod of the compressing driving cylinder 22, and one end of the compression rod 20 is hinged with the upper end of the first connecting rod 21; a second connecting rod 23 is further arranged on the mounting bottom plate 1 near the first connecting rod 21, a linkage plate 24 is hinged to the upper end of the second connecting rod 23, and the other end of the linkage plate 24 is hinged to the middle of the pressure rod 20.

The adjusting mechanism comprises a manual adjusting component and an automatic adjusting component which are wrapped and supported at the lower ends of two connecting lugs 14 at the same side of the shell 1; wherein, the manual regulation subassembly includes first stand 25, and the upper end screwed connection of first stand 25 has adjusting screw 26. During adjustment, the height direction of the intake manifold can be adjusted by screwing the adjusting screw 26 with a special wrench.

In addition, as shown in fig. 11 and 12, the automatic adjusting assembly includes a mounting block 27, a second upright post 28 is slidably disposed at an upper end of the mounting block 27, a limiting top block 29 and a limiting driving cylinder 30 are further disposed on a side wall of the mounting block 27, one end of the limiting top block 29 abuts against and is limited on a side wall at a lower end of the second upright post 28, and the other end of the limiting top block 29 is connected with a piston rod of the limiting driving cylinder 30. Specifically, the mounting block 27 in this structure is fixed on the mounting base plate 18, the upper end of the mounting block 27 is provided with a receiving hole 27.1, the lower end of the second upright post 28 is in sliding fit in the receiving hole 27.1, a guide inclined surface 28.1 is arranged on the side wall of the lower end of the second upright post 28, and an inclined surface matched with the guide inclined surface 28.1 is arranged at one end of the limiting top block 29 close to the second upright post 28.

Furthermore, in this structure, an elastic member 32 is disposed between the bottom of the receiving hole 27.1 and the lower end surface of the second pillar 28, which is preferably a cylindrical spring in this embodiment, and a positioning boss 28.2 is disposed at the lower end of the second pillar 28, the upper end of the cylindrical spring is sleeved and fixed outside the positioning boss 28.2, and the lower end of the cylindrical spring abuts against the bottom of the receiving hole 27.1.

In the structure, a waist-shaped hole 27.2 which extends along the axial direction of the mounting block 27 and is communicated with the accommodating hole 27.1 is arranged on the side wall of the mounting block 27, a positioning screw 31 is matched in the waist-shaped hole 27.2, and the end part of the positioning screw 31 is connected and fixed on the side wall of the second upright post 28. The function of the set screw 31 is to prevent the second upright 28 from moving upward under the action of the elastic member and thus from disengaging from the mounting block 27.

The foregoing has described preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary, and various changes made within the scope of the independent claims of the present invention are within the scope of the present invention.