CN111350183A - Driven pressure applying device for tamping timber pile - Google Patents

Abstract

The invention discloses a practical driven pressure device for a timber pile rammer, which comprises a bottom mounting base plate. The invention is matched with a one-machine multi-purpose driving device for a timber pile tamping, can tamp timber piles at narrow positions, can longitudinally beat by utilizing the crank wheel principle during actual work, and can also realize the vibration beating action by utilizing the elastic expansion action of high-pressure air to realize vibration tamping.

Description

Driven pressure applying device for tamping timber pile

Technical Field

The invention relates to the technical field of timber pile tamping, in particular to a practical driven pressure applying device for timber pile tamping.

Background

At present, when foundation construction is carried out, timber pile tamping is needed, but the existing timber pile tamping is carried out by large-scale machinery, the continuous use cost and the maintenance cost are high, and in addition, the limitation on places is large when the timber pile tamping is carried out.

Disclosure of Invention

The invention aims to provide a practical driven pressure device for a timber pile rammer, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a driven pressure applying device for tamping a timber pile comprises a bottom mounting base plate, wherein a reverse thread structure rotary type longitudinal height adjusting mechanism is mounted on one side of the top of the bottom mounting base plate, a top mounting base plate is mounted on the top of the reverse thread structure rotary type longitudinal height adjusting mechanism, a main vertical plate is mounted at the center of the top mounting base plate, a Z-shaped rotating shaft is mounted at the center of the plate body of the main vertical plate through a main bearing, a main rotating shaft connecting plate is mounted at the end part of a transverse shaft body of the Z-shaped rotating shaft, a main transverse connecting rod is mounted on one side of the top mounting base plate, a main hollow shell is mounted at the end part of the main transverse connecting rod, an air reserved space is arranged at the center of the upper surface of the main hollow shell, a main air inlet hole is arranged at the center part of one, the utility model discloses a cavity of an air conditioner, including main cavity shell, auxiliary piston board, main telescopic link, main cavity shell, main piston board, auxiliary piston board, main telescopic link, main piston board's plate body is installed in the inside in air headspace, the lower extreme installation auxiliary piston board of air headspace, a main shaft cover of another horizontal axis body tip installation of Z shape rotation axis, a side-mounting main movable rod of main shaft cover, main movable rod bottom is through activity hinged joint.

Further, the reverse thread structure rotary type longitudinal height adjusting mechanism comprises a thread sleeve for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first bolt hole is used for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole is used for the reverse thread structure rotary type longitudinal height adjusting mechanism.

Further, a reverse thread structure rotary type thread section for a longitudinal height adjusting mechanism communicating with both end faces of the reverse thread structure rotary type thread sleeve for a longitudinal height adjusting mechanism is provided at the center inside the reverse thread structure rotary type thread sleeve for a longitudinal height adjusting mechanism, a reverse thread structure rotary type thread structure for a longitudinal height adjusting mechanism is provided on the inner wall of the reverse thread structure rotary type thread section for a longitudinal height adjusting mechanism by the reverse thread structure rotary type thread sleeve for a longitudinal height adjusting mechanism, the bottom and the top of the reverse thread structure rotary type thread section for a longitudinal height adjusting mechanism are respectively connected with a reverse thread structure rotary type bottom threaded rod for a longitudinal height adjusting mechanism and a reverse thread structure rotary type top threaded rod for a longitudinal height adjusting mechanism by the reverse thread structure rotary type thread structure, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type top threaded rod all are provided with the vertical height-adjusting mechanism of reverse thread structure rotation type and use spacing hole, two inside in the spacing hole for the vertical height-adjusting mechanism of reverse thread structure rotation type inserts a vertical height-adjusting mechanism of reverse thread structure rotation type and uses the spacing rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type installs the vertical height-adjusting mechanism of reverse thread structure rotation type and uses first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate respectively at the other both ends of the top threaded rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate for mechanism Is provided with a first bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism.

Furthermore, the thread structure for the reverse thread structure rotary type vertical height adjusting mechanism comprises an internal thread structure arranged on the inner wall of a thread sleeve for the reverse thread structure rotary type vertical height adjusting mechanism and an external thread structure arranged on a bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and a top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism, and is located in the opposite thread direction of the thread structure on the bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and the top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism.

Furthermore, the structural shape of the cross section of the limiting hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the structural shape of the cross section of the limiting rod for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted at the top of the bottom mounting substrate and the bottom of the top mounting substrate through bolts.

Further, the coil spring contact type maximum air pressure control mechanism includes a hollow housing for the coil spring contact type maximum air pressure control mechanism, an air seal ring for the coil spring contact type maximum air pressure control mechanism, a hollow structure for the coil spring contact type maximum air pressure control mechanism, an exhaust hole for the coil spring contact type maximum air pressure control mechanism, a valve plate insertion space for the coil spring contact type maximum air pressure control mechanism, an air inlet hole for the coil spring contact type maximum air pressure control mechanism, a moving plate for the coil spring contact type maximum air pressure control mechanism, a valve plate for the coil spring contact type maximum air pressure control mechanism, an air vent for the coil spring contact type maximum air pressure control mechanism, and a coil spring for the coil spring contact type maximum air pressure control mechanism.

Further, an air seal ring for the coil spring contact type maximum air pressure control mechanism is sleeved on the side surface of the hollow shell for the coil spring contact type maximum air pressure control mechanism, a hollow structure for the coil spring contact type maximum air pressure control mechanism is arranged in the center of the inside of the hollow shell for the coil spring contact type maximum air pressure control mechanism, an exhaust hole for the coil spring contact type maximum air pressure control mechanism is arranged on one side, located in the hollow structure for the coil spring contact type maximum air pressure control mechanism, of the hollow shell for the coil spring contact type maximum air pressure control mechanism, one end of the exhaust hole for the coil spring contact type maximum air pressure control mechanism is communicated with one end of the hollow shell for the coil spring contact type maximum air pressure control mechanism, and the hollow shell for the coil spring contact type maximum air pressure control mechanism is located in the hollow shell for the coil spring contact type maximum air pressure control mechanism A valve plate insertion space for a coil spring contact type maximum air pressure control mechanism is arranged at the other side of the hollow structure for the control mechanism, an air inlet hole for the coil spring contact type maximum air pressure control mechanism is arranged at one side of the valve plate insertion space for the coil spring contact type maximum air pressure control mechanism, the air inlet hole for the coil spring contact type maximum air pressure control mechanism is communicated with the other side of the hollow shell for the coil spring contact type maximum air pressure control mechanism, a movable plate for the coil spring contact type maximum air pressure control mechanism is arranged in the hollow structure for the coil spring contact type maximum air pressure control mechanism, and the movable plate for the coil spring contact type maximum air pressure control mechanism is positioned in the hollow structure for the coil spring contact type maximum air pressure control mechanism The valve plate for the screw spring abutting type maximum air pressure control mechanism is integrally arranged at the center of the end face of one side of the valve plate inserting space for the maximum air pressure control mechanism, the side face of the movable plate for the screw spring abutting type maximum air pressure control mechanism is provided with a vent hole for the screw spring abutting type maximum air pressure control mechanism, the vent hole is communicated with the two end faces of the movable plate for the screw spring abutting type maximum air pressure control mechanism, and the other end face of the movable plate for the screw spring abutting type maximum air pressure control mechanism is provided with a screw spring for the screw spring abutting type maximum air pressure control mechanism.

Further, the air seal ring for the coil spring abutting type maximum air pressure control mechanism is clamped inside the main component mounting hole, and one end of the air inlet hole for the coil spring abutting type maximum air pressure control mechanism is communicated with the air reserved space.

Further, the initial length of the coil spring for the coil spring contact type maximum air pressure control mechanism is larger than the transverse length of the hollow structure for the coil spring contact type maximum air pressure control mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention is matched with a one-machine multi-purpose driving device for a timber pile tamping, can tamp timber piles at narrow positions, can longitudinally beat by utilizing the crank wheel principle during actual work, and can also realize the vibration beating action by utilizing the elastic expansion action of high-pressure air to realize vibration tamping.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of a driven pressing device for tamping a timber pile according to the present invention;

FIG. 2 is a schematic structural view of a rotary longitudinal height adjusting mechanism with a reverse thread structure in a driven press device for tamping a timber pile according to the present invention;

FIG. 3 is a schematic structural diagram of a maximum air pressure control mechanism of a coil spring contact type in a driven press device for tamping a timber pile according to the present invention;

in the figure: 1, a bottom mounting base plate, 2, a top mounting base plate, 3, a reverse thread structure rotary type longitudinal height adjusting mechanism, 31, a reverse thread structure rotary type longitudinal height adjusting mechanism screw sleeve, 32, a reverse thread structure rotary type longitudinal height adjusting mechanism screw section, 33, a reverse thread structure rotary type longitudinal height adjusting mechanism screw structure, 34, a reverse thread structure rotary type longitudinal height adjusting mechanism bottom screw rod, 35, a reverse thread structure rotary type longitudinal height adjusting mechanism top screw rod, 36, a reverse thread structure rotary type longitudinal height adjusting mechanism spacing hole, 37, a reverse thread structure rotary type longitudinal height adjusting mechanism spacing rod, 38, a reverse thread structure rotary type longitudinal height adjusting mechanism first connecting plate, 39, a reverse thread structure rotary type longitudinal height adjusting mechanism second connecting plate, 310, a first bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism 311, a second bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism 4, a main vertical plate 5, a zigzag rotating shaft 6, a main rotating shaft connecting plate 7, a main shaft sleeve 8, a main horizontal connecting rod 9, a main hollow housing 10, an air reserving space 11, a coil spring contact type maximum air pressure controlling mechanism 111, a hollow housing for a coil spring contact type maximum air pressure controlling mechanism 112, an air seal ring for a coil spring contact type maximum air pressure controlling mechanism 113, a hollow structure for a coil spring contact type maximum air pressure controlling mechanism 114, an exhaust hole for a coil spring contact type maximum air pressure controlling mechanism 115, a valve plate insertion space for a coil spring contact type maximum air pressure controlling mechanism 116, the air inlet hole for the coil spring abutting type maximum air pressure control mechanism, 117, the moving plate for the coil spring abutting type maximum air pressure control mechanism, 118, the valve plate for the coil spring abutting type maximum air pressure control mechanism, 119, the vent hole for the coil spring abutting type maximum air pressure control mechanism, 1110, the coil spring for the coil spring abutting type maximum air pressure control mechanism, 12, the main piston plate, 13, the auxiliary piston plate, 14, the main telescopic rod, 15, the bottom punch block, 16, the main movable rod, 17, the main air inlet hole, 18, and the main valve core.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the air-conditioning device comprises a bottom mounting base plate 1, wherein a reverse thread structure rotary type longitudinal height adjusting mechanism 3 is mounted on one side of the top of the bottom mounting base plate 1, a top mounting base plate 2 is mounted on the top of the reverse thread structure rotary type longitudinal height adjusting mechanism 3, a main vertical plate 4 is mounted at the center of the top mounting base plate 2, a Z-shaped rotating shaft 5 is mounted at the center of a plate body of the main vertical plate 4 through a main bearing, a main rotating shaft connecting plate 6 is mounted at the end part of a transverse shaft body of the Z-shaped rotating shaft 5, a main transverse connecting rod 8 is mounted at one side of the top mounting base plate 2, a main hollow shell 9 is mounted at the end part of the main transverse connecting rod 8, an air reserved space 10 is arranged at the center of the upper surface of the main hollow shell 9, a main air inlet 17 is arranged at the center, main cavity shell 9 opposite side position is provided with the main part mounting hole, and a coil spring of the internally mounted of main part mounting hole supports and touches formula maximum air pressure control mechanism 11, the inside low end installation auxiliary piston board 13 of air headspace 10, an auxiliary piston board 13 bottom center installation main telescopic link 14, the body of rod of main telescopic link 14 runs through main cavity shell 9, just a body of rod installation bottom punching press piece 15 of the 14 bottom of main telescopic link, another horizontal axis body tip installation main shaft cover 7 of Z shape rotation axis 5, a side-mounting main movable rod 16 of main shaft cover 7, a main piston board 12 is connected through activity hinge in main movable rod 16 bottom, just the plate body of main piston board 12 is installed in the inside of air headspace 10.

Referring to fig. 2, the reverse-thread-structure rotary type longitudinal height adjustment mechanism 3 includes a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded sleeve 31, a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded section 32, a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded structure 33, a reverse-thread-structure rotary type longitudinal height adjustment mechanism bottom threaded rod 34, a reverse-thread-structure rotary type longitudinal height adjustment mechanism top threaded rod 35, a reverse-thread-structure rotary type longitudinal height adjustment mechanism limiting hole 36, a reverse-thread-structure rotary type longitudinal height adjustment mechanism limiting rod 37, a reverse-thread-structure rotary type longitudinal height adjustment mechanism first connecting plate 38, a reverse-thread-structure rotary type longitudinal height adjustment mechanism second connecting plate 39, a reverse-thread-structure rotary type longitudinal height adjustment mechanism first bolt hole 310, and a reverse-thread-structure rotary type longitudinal height adjustment mechanism second connecting plate 39 A second bolt hole 311; the center inside the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 31 is provided with a reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 32 communicating two end faces of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 31, the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 31 is provided with a reverse thread structure rotary type longitudinal height adjusting mechanism threaded structure 33 on the inner wall of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 32, the bottom and the top of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 32 are respectively connected with a reverse thread structure rotary type longitudinal height adjusting mechanism bottom threaded rod 34 and a reverse thread structure rotary type longitudinal height adjusting mechanism top threaded rod 35 through the reverse thread structure rotary type longitudinal height adjusting mechanism threaded structure 33, the vertical height adjustment mechanism of reverse thread structure rotation type is with bottom threaded rod 34 and the vertical height adjustment mechanism of reverse thread structure rotation type top threaded rod 35 all are provided with the vertical height adjustment mechanism of reverse thread structure rotation type in opposite end inside with spacing hole 36, two the vertical height adjustment mechanism of reverse thread structure rotation type inserts a vertical height adjustment mechanism of reverse thread structure rotation type with spacing rod 37 with spacing hole 36's inside, the vertical height adjustment mechanism of reverse thread structure rotation type is with bottom threaded rod 34 and the vertical height adjustment mechanism of reverse thread structure rotation type installs the vertical height adjustment mechanism of reverse thread structure rotation type with first connecting plate 38 and the vertical height adjustment mechanism of reverse thread structure rotation type with second connecting plate 39 for the vertical height adjustment mechanism of reverse thread structure rotation type respectively with the other both ends of the top threaded rod 35, the vertical height adjustment mechanism of reverse thread structure rotation type is with first connecting plate 38 and the vertical height adjustment mechanism of reverse thread structure A first bolt hole 310 for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole 311 for a reverse thread structure rotary type longitudinal height adjusting mechanism are provided inside the second connecting plate 39 for an adjusting mechanism; the thread structure 33 for the reverse thread structure rotary type longitudinal height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 31 for the reverse thread structure rotary type longitudinal height adjusting mechanism and external thread structures arranged on the bottom threaded rod 34 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 35 for the reverse thread structure rotary type longitudinal height adjusting mechanism, and the thread directions of the thread structures on the bottom threaded rod 34 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 35 for the reverse thread structure rotary type longitudinal height adjusting mechanism are opposite; the cross section structural appearance of the limiting hole 36 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the cross section structural appearance of the limiting rod 37 for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the ends of the first bolt hole 310 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole 311 for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted at the top of the bottom mounting substrate 1 and the bottom of the top mounting substrate 2 through bolts.

Referring to fig. 3, the coil spring contact type maximum air pressure control mechanism 11 includes a coil spring contact type maximum air pressure control mechanism hollow housing 111, a coil spring contact type maximum air pressure control mechanism air seal ring 112, a coil spring contact type maximum air pressure control mechanism hollow structure 113, a coil spring contact type maximum air pressure control mechanism exhaust hole 114, a coil spring contact type maximum air pressure control mechanism valve plate insertion space 115, an intake hole 116 for a coil spring contact type maximum air pressure control mechanism, a moving plate 117 for a coil spring contact type maximum air pressure control mechanism, a valve plate 118 for a coil spring contact type maximum air pressure control mechanism, a vent hole 119 for a coil spring contact type maximum air pressure control mechanism, and a coil spring 1110 for a coil spring contact type maximum air pressure control mechanism; an air seal ring 112 for the coil spring contact type maximum air pressure control mechanism is sleeved on the side surface of the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism, a hollow structure 113 for the coil spring contact type maximum air pressure control mechanism is arranged in the center inside the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism, an exhaust hole 114 for the coil spring contact type maximum air pressure control mechanism is arranged on one side of the hollow structure 113 for the coil spring contact type maximum air pressure control mechanism of the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism, one end of the exhaust hole 114 for the coil spring contact type maximum air pressure control mechanism is communicated with one end of the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism, and the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism is arranged on the side of the hollow shell 111 for the coil spring contact type maximum air pressure control mechanism A coil spring contact type maximum air pressure control mechanism valve plate insertion space 115 is provided on the other side of the large air pressure control mechanism hollow structure 113, a coil spring contact type maximum air pressure control mechanism air inlet hole 116 is provided on one side of the coil spring contact type maximum air pressure control mechanism valve plate insertion space 115 of the coil spring contact type hollow housing 111, the coil spring contact type maximum air pressure control mechanism air inlet hole 116 communicates with the other side of the coil spring contact type maximum air pressure control mechanism hollow housing 111, a coil spring contact type maximum air pressure control mechanism moving plate 117 is provided inside the coil spring contact type maximum air pressure control mechanism hollow structure 113 of the coil spring contact type hollow housing 111, the coil spring contact type maximum air pressure control mechanism moving plate 117 is provided with a coil spring contact type maximum air pressure control mechanism valve plate 118 integrally formed therewith at the center of the end surface located on the side of the coil spring contact type maximum air pressure control mechanism valve plate insertion space 115, a coil spring contact type maximum air pressure control mechanism vent hole 119 communicating both end surfaces thereof is provided on the side surface of the coil spring contact type maximum air pressure control mechanism moving plate 117, and a coil spring contact type maximum air pressure control mechanism coil spring 1110 is mounted on the other end surface of the coil spring contact type maximum air pressure control mechanism moving plate 117; the air sealing ring 112 for the coil spring contact type maximum air pressure control mechanism is clamped inside the main component mounting hole, and one end of the air inlet hole 116 for the coil spring contact type maximum air pressure control mechanism is communicated with the air reserved space 10; the initial length of the coil spring contact type maximum air pressure control mechanism-use coil spring 1110 is larger than the lateral length of the coil spring contact type maximum air pressure control mechanism-use hollow structure 113.

The specific use mode is as follows: in the operation of the invention, a main rotating shaft connecting plate 6 and a main air inlet 17 in the device are respectively connected with the end part of a rotating shaft and an air outlet in a one-machine multi-purpose driving device for tamping a wood pile, and then a rotary longitudinal height adjusting mechanism 3 with a reverse thread structure is adjusted, so that a bottom punching block 15 is positioned right above the wood pile to be tamped, a driving motor of the one-machine multi-purpose driving device for tamping the wood pile is opened, high-pressure air enters the main hollow structure 10 under the action of the one-machine multi-purpose driving device for tamping the wood pile, the bottom punching block 15 is abutted against the top of the wood pile under the action of the high-pressure air, a main piston plate 12 is moved in a reciprocating mode under the linkage action of components, the internal air is compressed, and the bottom punching block 15 can perform continuous punching action on the top of the wood pile under the action of the high-pressure air.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a stake is tamped with driven pressure equipment and is put, includes bottom mounting substrate (1), its characterized in that: a reverse thread structure rotary type longitudinal height adjusting mechanism (3) is installed on one side of the top of the bottom installation base plate (1), a top installation base plate (2) is installed on the top of the reverse thread structure rotary type longitudinal height adjusting mechanism (3), a main vertical plate (4) is installed at the center of the top installation base plate (2), a Z-shaped rotating shaft (5) is installed at the center of a plate body of the main vertical plate (4) through a main bearing, a main rotating shaft connecting plate (6) is installed at the end part of a transverse shaft body of the Z-shaped rotating shaft (5), a main transverse connecting rod (8) is installed on one side of the top installation base plate (2), a main hollow shell (9) is installed at the end part of the main transverse connecting rod (8), an air reserved space (10) is arranged at the center of the upper surface of the main hollow shell (9), and a main air inlet hole (, a main valve core (18) is arranged inside the main air inlet hole (17), a main part mounting hole is formed in the other side of the main hollow shell (9), a spiral spring abutting type maximum air pressure control mechanism (11) is arranged inside the main part mounting hole, an auxiliary piston plate (13) is arranged at the lower end inside the air reserved space (10), a main telescopic rod (14) is arranged at the center of the bottom of the auxiliary piston plate (13), a rod body of the main telescopic rod (14) penetrates through the main hollow shell (9), a bottom stamping block (15) is arranged at the rod body of the bottom of the main telescopic rod (14), a main shaft sleeve (7) is arranged at the end part of the other transverse shaft body of the Z-shaped rotating shaft (5), a main movable rod (16) is arranged on the side surface of the main shaft sleeve (7), and the bottom end of the main movable rod (16) is connected with a main piston plate (12) through a movable hinge, and the plate body of the main piston plate (12) is arranged in the air reserved space (10).

2. The driven pressure-applying device for tamping a wooden pile according to claim 1, wherein: the reverse thread structure rotary type longitudinal height adjusting mechanism (3) comprises a thread sleeve (31) for a reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section (32) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure (33) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod (34) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod (35) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting hole (36) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting rod (37) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a first connecting plate (38) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a second connecting plate (39) for the reverse thread structure rotary type longitudinal height adjusting mechanism, A first bolt hole (310) for a reverse-thread structure rotary type longitudinal height adjustment mechanism and a second bolt hole (311) for a reverse-thread structure rotary type longitudinal height adjustment mechanism.

3. The driven pressure-applying device for tamping a wooden pile according to claim 2, wherein: the center of the inside of the threaded sleeve (31) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is provided with a threaded interval (32) for the reverse threaded structure rotary type longitudinal height adjusting mechanism communicating with the threaded sleeve (31) for the reverse threaded structure rotary type longitudinal height adjusting mechanism and having two end faces, the threaded sleeve (31) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is located on the inner wall of the threaded interval (32) for the reverse threaded structure rotary type longitudinal height adjusting mechanism and is provided with a threaded structure (33) for the reverse threaded structure rotary type longitudinal height adjusting mechanism, the bottom and the top of the threaded interval (32) for the reverse threaded structure rotary type longitudinal height adjusting mechanism are respectively connected with a bottom threaded rod (34) for the reverse threaded structure rotary type longitudinal height adjusting mechanism and a reverse threaded structure rotary type longitudinal height adjusting machine through the threaded structure (33) for the reverse threaded structure rotary type longitudinal height adjusting mechanism A top threaded rod (35) for the structure, a bottom threaded rod (34) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod (35) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a limiting hole (36) for the reverse thread structure rotary type longitudinal height adjusting mechanism in the opposite end, a limiting rod (37) for the reverse thread structure rotary type longitudinal height adjusting mechanism is inserted into the limiting hole (36) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the other two ends of the bottom threaded rod (34) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod (35) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a first connecting plate (38) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second connecting plate (39) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first connecting plate (38) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second connecting plate (39) for the reverse thread structure rotary type longitudinal height adjusting mechanism are internally provided with a first bolt hole (310) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole (311) for the reverse thread structure rotary type longitudinal height adjusting mechanism.

4. The driven pressure-applying device for tamping a wooden pile according to claim 3, wherein: the thread structure (33) for the reverse thread structure rotary type vertical height adjusting mechanism comprises an internal thread structure arranged on the inner wall of a thread sleeve (31) for the reverse thread structure rotary type vertical height adjusting mechanism and an external thread structure arranged on a bottom threaded rod (34) for the reverse thread structure rotary type vertical height adjusting mechanism and a top threaded rod (35) for the reverse thread structure rotary type vertical height adjusting mechanism, and is located in the opposite direction of the thread structure on the rod body of the bottom threaded rod (34) for the reverse thread structure rotary type vertical height adjusting mechanism and the top threaded rod (35) for the reverse thread structure rotary type vertical height adjusting mechanism.

5. The driven pressure-applying device for tamping a wooden pile according to claim 3, wherein: the cross section structure appearance of the limiting hole (36) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the cross section structure appearance of the limiting rod (37) for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole (310) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole (311) for the reverse thread structure rotary type longitudinal height adjusting mechanism are installed at the top of the bottom installation base plate (1) and the bottom of the top installation base plate (2) through bolts.

6. The driven pressure-applying device for tamping a wooden pile according to claim 1, wherein: the coil spring contact type maximum air pressure control mechanism (11) comprises a hollow shell (111) for the coil spring contact type maximum air pressure control mechanism, an air sealing ring (112) for the coil spring contact type maximum air pressure control mechanism, a hollow structure (113) for the coil spring contact type maximum air pressure control mechanism, an exhaust hole (114) for the coil spring contact type maximum air pressure control mechanism and a valve plate insertion space (115) for the coil spring contact type maximum air pressure control mechanism, an air inlet hole (116) for a coil spring contact type maximum air pressure control mechanism, a moving plate (117) for a coil spring contact type maximum air pressure control mechanism, a valve plate (118) for a coil spring contact type maximum air pressure control mechanism, an air vent (119) for a coil spring contact type maximum air pressure control mechanism, and a coil spring (1110) for a coil spring contact type maximum air pressure control mechanism.

7. The driven pressure-applying device for tamping a wooden pile according to claim 6, wherein: an air seal ring (112) for the spiral spring contact type maximum air pressure control mechanism is sleeved on the side face of the hollow shell (111) for the spiral spring contact type maximum air pressure control mechanism, a hollow structure (113) for the spiral spring contact type maximum air pressure control mechanism is arranged in the center of the interior of the hollow shell (111) for the spiral spring contact type maximum air pressure control mechanism, an exhaust hole (114) for the spiral spring contact type maximum air pressure control mechanism is arranged on one side of the hollow structure (113) for the spiral spring contact type maximum air pressure control mechanism of the hollow shell (111) for the spiral spring contact type maximum air pressure control mechanism, one end of the exhaust hole (114) for the spiral spring contact type maximum air pressure control mechanism is communicated with one end of the hollow shell (111) for the spiral spring contact type maximum air pressure control mechanism, a coil spring contact type maximum air pressure control mechanism valve plate insertion space (115) is formed in the other side, located in the coil spring contact type maximum air pressure control mechanism hollow structure (113), of the coil spring contact type hollow shell (111) for the maximum air pressure control mechanism, a coil spring contact type maximum air pressure control mechanism air inlet hole (116) is formed in one side, located in the coil spring contact type maximum air pressure control mechanism valve plate insertion space (115), of the coil spring contact type hollow shell (111), the coil spring contact type maximum air pressure control mechanism air inlet hole (116) is communicated with the other side of the coil spring contact type maximum air pressure control mechanism hollow shell (111), and the coil spring contact type maximum air pressure control mechanism hollow shell (111) is located in the coil spring contact type maximum air pressure control mechanism air inlet hole (111) A coil spring contact type moving plate (117) for the maximum air pressure control mechanism is arranged in the hollow structure (113) for the mechanism, the coil spring contact type maximum air pressure control mechanism moving plate (117) is provided with a coil spring contact type maximum air pressure control mechanism valve plate (118) integrated with the coil spring contact type maximum air pressure control mechanism moving plate at the center of the end surface of the coil spring contact type maximum air pressure control mechanism valve plate insertion space (115), a vent hole (119) for the coil spring contact type maximum air pressure control mechanism is arranged on the side surface of the moving plate (117) for the coil spring contact type maximum air pressure control mechanism and communicated with the two end surfaces of the moving plate, a coil spring (1110) for a coil spring contact type maximum air pressure control mechanism is mounted on the other end surface of the moving plate (117) for a coil spring contact type maximum air pressure control mechanism.

8. The driven pressure-applying device for tamping a wooden pile according to claim 7, wherein: the air sealing ring (112) for the spiral spring abutting type maximum air pressure control mechanism is clamped in the main component mounting hole, and one end of an air inlet hole (116) for the spiral spring abutting type maximum air pressure control mechanism is communicated with the air reserved space (10).

9. The driven pressure-applying device for tamping a wooden pile according to claim 7, wherein: the initial length of the coil spring contact type maximum air pressure control mechanism coil spring (1110) is longer than the lateral length of the coil spring contact type maximum air pressure control mechanism hollow structure (113).

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