CN111254908A - Movable combined power type vibration leveling machine - Google Patents

Abstract

The invention discloses a movable combined power type vibration temper mill which comprises a main hollow shell. The invention takes the electromagnetic principle as a driving source and is matched with liquid to synchronously drive the punching components at two sides when moving up and down, so the driving area is relatively large, the utilization ratio of the driving source is high, the practicability is strong, and in addition, the device is provided with a piston seal guide type driven up-and-down moving mechanism which can move under the driving of liquid and the driving of a spiral spring so as to drive a tamping component to perform a downward favorable tamping function, the device is provided with a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, can drive the liquid inside under the action of electromagnetic field intensity and liquid driving to realize the driving function, and in addition, the device has the high-efficient punching press mechanism in bolted connection formula plane, through bolted connection after, can carry out the punching press to ground, can not form the edges and corners to ground moreover, improved the planarization.

Description

Movable combined power type vibration leveling machine

Technical Field

The invention relates to the technical field of vibration temper mills, in particular to a movable combined dynamic vibration temper mill.

Background

At present, vibrations levelling machine is very important when carrying out the ground tamp, and its tamping area of current vibrations levelling machine is less, and is lower to the effective utilization ratio of driving source, and the limitation is great, moreover, because all be the rectangle structure with the part of ground tamping, leads to its each time to tamp the back, all can cause the edges and corners to ground, and the planarization is relatively poor.

Disclosure of Invention

The invention aims to provide a mobile combined power type vibration leveling machine to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a movable combined power type vibration temper mill comprises a main hollow shell, wherein vertical plate structures which are integrated with the main hollow shell are arranged on two sides of the bottom of the main hollow shell, two auxiliary hollow shells which are integrated with the main hollow shell are arranged on the top of the side face of the main hollow shell, a main rotating shaft is arranged in each vertical plate structure through a bearing, two rollers are arranged at opposite ends of each main rotating shaft, a plurality of tip structures which are integrated with the rollers are arranged on the side face of each roller, an iron core is arranged at the center of the bottom of the main hollow shell, a coil is arranged on the side face of each iron core, a main hollow structure is arranged right above each coil of the main hollow shell, auxiliary hollow structures are arranged at the centers of the two auxiliary hollow shells, and the main hollow structure is connected with the two auxiliary hollow structures through a main pipeline hole, the high-efficiency stamping device is characterized in that a circular plate-shaped permanent magnet guide type driving up-down moving mechanism and a piston seal guide type driven up-down moving mechanism are respectively placed inside the main hollow structure and the two pairs of hollow structures, hydraulic oil is filled in the space above the circular plate-shaped permanent magnet guide type driving up-down moving mechanism and the piston seal guide type driven up-down moving mechanism, a main telescopic rod is installed at the center of the bottom of the piston seal guide type driven up-down moving mechanism, a rod body of the main telescopic rod is installed in a compressed main spiral spring inner ring, the main telescopic rod penetrates through the centers of the bottoms of the two pairs of hollow structures, a main sealing ring is installed at a penetrating position, and a bolt connection type plane high-efficiency stamping mechanism is installed at the.

Further, the piston seal guide type driven up-and-down moving mechanism comprises a piston plate for the piston seal guide type driven up-and-down moving mechanism, a conical guide structure for the piston seal guide type driven up-and-down moving mechanism, a first annular groove structure for the piston seal guide type driven up-and-down moving mechanism, a second annular groove structure for the piston seal guide type driven up-and-down moving mechanism, a first sealing ring for the piston seal guide type driven up-and-down moving mechanism, a second sealing ring for the piston seal guide type driven up-and-down moving mechanism and a mounting groove structure for the piston seal guide type driven up-and-down moving mechanism; the top end of the piston plate for the piston seal guide type driven up-and-down moving mechanism is provided with a conical guide structure for the piston seal guide type driven up-and-down moving mechanism which is integrated with the piston plate for the piston seal guide type driven up-and-down moving mechanism, the side surface of the piston plate for the piston seal guide type driven up-and-down moving mechanism is provided with a first annular groove structure for the piston seal guide type driven up-and-down moving mechanism and a second annular groove structure for the piston seal guide type driven up-and-down moving mechanism, the piston plate for the piston seal guide type driven up-and-down moving mechanism is respectively provided with a first sealing ring for the piston seal guide type driven up-and-down moving mechanism and a second sealing ring for the piston seal guide type driven up-and-down moving mechanism in the first annular groove structure for the piston seal guide type driven up-, and the center of the bottom of the piston plate for the piston seal guide type driven up-and-down moving mechanism is provided with a mounting groove structure for the piston seal guide type driven up-and-down moving mechanism.

Further, the piston plate for the piston seal guide type driven vertical moving mechanism is installed inside the sub hollow structure.

Furthermore, the piston seal guide type driven up-down moving mechanism is internally provided with a top rod body of the main telescopic rod.

Further, the circular plate-shaped permanent magnet guide type driving up-down moving mechanism comprises a piston plate for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a conical guide structure for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a first annular groove structure for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a second annular groove structure for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a first sealing ring for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a second sealing ring for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a mounting groove structure for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism and a circular plate-shaped; the conical guide structure for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is arranged at the top end of the piston plate for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism and is in an integrated structure with the piston plate for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, a first annular groove structure for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism and a second annular groove structure for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism are arranged on the side face of the piston plate for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, the piston plate for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is located in the first annular groove structure for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism and the second annular groove structure for the circular plate-shaped permanent magnet guide type driving up- And a second sealing ring for the movable up-and-down moving mechanism, wherein a circular plate permanent magnet guiding type mounting groove structure for driving the up-and-down moving mechanism is arranged at the center of the bottom of a piston plate for driving the up-and-down moving mechanism by guiding the circular plate permanent magnet, and a circular plate permanent magnet guiding type driving the up-and-down moving mechanism is arranged in the circular plate permanent magnet guiding type mounting groove structure for driving the up-and-down moving mechanism.

Further, the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is installed inside the main hollow structure with a piston plate.

Further, the circular plate-shaped permanent magnet for guiding type driving up-down moving mechanism is a circular plate structure made of neodymium iron boron material.

Further, the bolted planar high-efficiency stamping mechanism comprises a connecting plate for the bolted planar high-efficiency stamping mechanism, a bolt for the bolted planar high-efficiency stamping mechanism, a rod body inserting groove structure for the bolted planar high-efficiency stamping mechanism, a flat plate body for the bolted planar high-efficiency stamping mechanism, an 1/4 annular structure for the bolted planar high-efficiency stamping mechanism and a curved surface structure for the bolted planar high-efficiency stamping mechanism; bolted connection formula high-efficient stamping mechanism of plane is passed through bolted connection formula high-efficient stamping mechanism of bolted connection formula plane and is used the flat body for high-efficient stamping mechanism of plane in the bottom of the connecting plate for bolted connection formula plane, bolted connection formula high-efficient stamping mechanism of plane is provided with the high-efficient stamping mechanism of bolted connection formula plane and inserts groove structure with the body of rod, bolted connection formula high-efficient stamping mechanism of plane is provided with the bolted connection formula high-efficient stamping mechanism of plane with its integral type structure and uses 1/4 ring structure, bolted connection formula high-efficient stamping mechanism of plane is the curved surface structure for the high-efficient stamping mechanism of bolted connection formula plane with 1/4 ring structure's side.

Further, the bolt connection type plane high-efficiency stamping mechanism is provided with a rod body at the bottom end of the main telescopic rod inside the rod body inserting groove structure.

Further, the cross section of the curved surface structure for the bolt connection type plane high-efficiency stamping mechanism is 1/4 circular structure.

Compared with the prior art, the invention has the beneficial effects that: the invention takes the electromagnetic principle as a driving source and is matched with liquid to synchronously drive the punching components at two sides when moving up and down, so the driving area is relatively large, the utilization ratio of the driving source is high, the practicability is strong, and in addition, the device is provided with a piston seal guide type driven up-and-down moving mechanism which can move under the driving of liquid and the driving of a spiral spring so as to drive a tamping component to perform a downward favorable tamping function, the device is provided with a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, can drive the liquid inside under the action of electromagnetic field intensity and liquid driving to realize the driving function, and in addition, the device has the high-efficient punching press mechanism in bolted connection formula plane, through bolted connection after, can carry out the punching press to ground, can not form the edges and corners to ground moreover, improved the planarization.

Drawings

FIG. 1 is a schematic view of a full-section structure of a mobile combined dynamic vibration leveler of the present invention;

FIG. 2 is a schematic structural diagram of a piston seal guide type driven up-and-down moving mechanism in a mobile combined dynamic vibration leveler according to the present invention;

FIG. 3 is a schematic structural diagram of a mechanism for guiding and driving an up-and-down moving mechanism by a circular plate-shaped permanent magnet in the mobile combined dynamic vibration temper mill according to the invention;

FIG. 4 is a schematic structural diagram of a bolt-connected planar high-efficiency stamping mechanism in the mobile combined dynamic vibration leveler of the present invention;

in the figure: 1, main hollow housing, 2, upright plate structure, 3, tip structure, 4, roller, 6, iron core, 7, main rotation axis, 8, coil, 9, main hollow structure, 10, main pipe hole, 11, secondary hollow structure, 12, piston seal guide type driven up-down moving mechanism, 121, piston plate for piston seal guide type driven up-down moving mechanism, 122, taper guide structure for piston seal guide type driven up-down moving mechanism, 123, first annular groove structure for piston seal guide type driven up-down moving mechanism, 124, second annular groove structure for piston seal guide type driven up-down moving mechanism, 125, first seal ring for piston seal guide type driven up-down moving mechanism, 126, second seal ring for piston seal guide type driven up-down moving mechanism, 127, mounting groove structure for piston seal guide type driven up-down moving mechanism, mounting groove structure for piston seal guide type up-down moving mechanism, 13, hydraulic oil 14, main telescopic rod 15, main seal ring 16, main coil spring 17, auxiliary hollow housing 18, circular plate permanent magnet guide type driving up-down moving mechanism 181, piston plate for circular plate permanent magnet guide type driving up-down moving mechanism 182, conical guide structure for circular plate permanent magnet guide type driving up-down moving mechanism 183, first annular groove structure for circular plate permanent magnet guide type driving up-down moving mechanism 184, second annular groove structure for circular plate permanent magnet guide type driving up-down moving mechanism 185, first seal ring for circular plate permanent magnet guide type driving up-down moving mechanism 186, second seal ring for circular plate permanent magnet guide type driving up-down moving mechanism 187, installation groove structure for circular plate permanent magnet guide type driving up-down moving mechanism 188, circular plate permanent magnet guide type driving up-down moving mechanism circular plate permanent magnet, 19, bolted connection formula high-efficient punching press in plane mechanism, 191, bolted connection formula high-efficient punching press in plane mechanism is with connecting plate, 192, bolted connection formula high-efficient punching press in plane mechanism is with bolt, 193, bolted connection formula high-efficient punching press in plane mechanism inserts the groove structure with the body of rod, 194, bolted connection formula high-efficient punching press in plane mechanism is with the flat plate body, 195, bolted connection formula high-efficient punching press in plane mechanism is with 1/4 ring structure, 196, bolted connection formula high-efficient punching press in plane mechanism is with curved surface structure.

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 device comprises a main hollow shell 1, wherein two vertical plate structures 2 which are integrated with the main hollow shell 1 are arranged on two sides of the bottom of the main hollow shell 1, two auxiliary hollow shells 17 which are integrated with the main hollow shell 1 are arranged on the top of the side surface of the main hollow shell 1, a main rotating shaft 7 is arranged in the vertical plate structures 2 through bearings, a roller 4 is arranged at the opposite end of each main rotating shaft 7, a plurality of tip structures 3 which are integrated with the roller 4 are arranged on the side surface of the roller 4, an iron core 6 is arranged at the center of the bottom of the main hollow shell 1, a coil 8 is arranged on the side surface of the iron core 6, a main hollow structure 9 is arranged right above the coil 8 on the main hollow shell 1, an auxiliary hollow structure 11 is arranged at the center of each auxiliary hollow shell 17, and the main hollow structure 9 is connected with the two auxiliary hollow structures 11 through a main pipeline hole 10, the main hollow structure 9 and the two pairs of hollow structures 11 are internally provided with a circular plate-shaped permanent magnet guide type driving up-down moving mechanism 18 and a piston seal guide type driven up-down moving mechanism 12 respectively, the interior of the main hollow shell 1 is positioned above the circular plate-shaped permanent magnet guide type driving up-down moving mechanism 18 and the piston seal guide type driven up-down moving mechanism 12, hydraulic oil 13 is filled in the space above the piston seal guide type driven up-down moving mechanism 12, a main telescopic rod 14 is installed at the center of the bottom of the piston seal guide type driven up-down moving mechanism 12, a rod body of the main telescopic rod 14 is installed in a compressed main spiral spring 16 inner ring, the main telescopic rod 14 penetrates through the centers of the bottoms of the two pairs of hollow shells 17, a main sealing ring 15 is installed at the penetrating position, and a bolt.

Referring to fig. 2, the piston seal guide type driven up-and-down moving mechanism 12 includes a piston plate 121 for the piston seal guide type driven up-and-down moving mechanism, a tapered guide structure 122 for the piston seal guide type driven up-and-down moving mechanism, a first annular groove structure 123 for the piston seal guide type driven up-and-down moving mechanism, a second annular groove structure 124 for the piston seal guide type driven up-and-down moving mechanism, a first seal ring 125 for the piston seal guide type driven up-and-down moving mechanism, a second seal ring 126 for the piston seal guide type driven up-and-down moving mechanism, and a mounting groove structure 127 for the piston seal guide type driven up-and-; the piston plate 121 for the piston seal guide type driven up-and-down moving mechanism is provided at the top end thereof with a taper guide structure 122 for the piston seal guide type driven up-and-down moving mechanism of a structure integrated with the piston plate 121 for the piston seal guide type driven up-and-down moving mechanism, a first annular groove structure 123 for the piston seal guide type driven up-and-down moving mechanism and a second annular groove structure 124 for the piston seal guide type driven up-and-down moving mechanism are provided on the side surface of the piston plate 121 for the piston seal guide type driven up-and-down moving mechanism, and the piston plate 121 for the piston seal guide type driven up-and-down moving mechanism is provided with a first seal ring 125 for the piston seal guide type driven up-and-down moving mechanism and a second seal ring structure 124 for the piston seal guide type driven up-and-down-moving mechanism respectively inside the first annular groove structure 123 for the piston A ring 126 having a piston seal guide type mounting groove structure 127 formed in the center of the bottom of the piston plate 121 for the piston seal guide type driven up-down moving mechanism; the piston plate 121 for the piston seal guide type driven up-down moving mechanism is installed inside the sub hollow structure 11; the piston seals driven for the up-and-down moving mechanism of guided mounting groove structure 127's internally mounted has the top body of rod of main telescopic link 14, and its main function is: the piston plate 121 for the piston seal guide type driven up-down moving mechanism is installed inside the sub hollow structure 11; since the top rod body of the main telescopic rod 14 is installed inside the piston seal guide type driven vertical movement mechanism mounting groove structure 127, the liquid leakage can be prevented by the first seal ring 125 for the piston seal guide type driven vertical movement mechanism and the second seal ring 126 for the piston seal guide type driven vertical movement mechanism, and the movement can be performed by an external action.

Referring to fig. 3, the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism 18 includes a piston plate 181 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a taper guiding structure 182 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a first annular groove structure 183 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a second annular groove structure 184 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a first seal ring 185 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a second seal ring 186 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a mounting groove structure 187 for a circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, and a circular; the top end of the piston plate 181 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is provided with a conical guide structure 182 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, which is integrated with the piston plate 181 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, the side surface of the piston plate 181 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is provided with a first annular groove structure 183 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism and a second annular groove structure 184 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, and the piston plate 181 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is respectively provided with a first sealing ring 185 and a second sealing ring 185 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism inside the first annular groove structure 183 for the circular A second seal 186 for driving the up-down moving mechanism with the guiding type of the circular plate-shaped permanent magnet, wherein a mounting groove structure 187 for driving the up-down moving mechanism with the guiding type of the circular plate-shaped permanent magnet is arranged at the center of the bottom of the piston plate 181 for driving the up-down moving mechanism with the guiding type of the circular plate-shaped permanent magnet, and a circular plate-shaped permanent magnet 188 for driving the up-down moving mechanism with the guiding type of the circular plate-shaped permanent magnet is arranged in the mounting groove structure 187 for driving the up-; the circular plate-shaped permanent magnet guide type piston plate 181 for driving the up-down moving mechanism is installed inside the main hollow structure 9; the circular plate-shaped permanent magnet 188 for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism is a circular plate structure made of neodymium iron boron materials, and has the main functions of: the piston plate 181 for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is installed inside the main hollow structure 9; the circular plate-shaped permanent magnet 188 for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism is a circular plate structure made of neodymium iron boron materials, so under the action of the first sealing ring 185 for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism and the second sealing ring 186 for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, liquid leakage can be prevented, and under the action of pressure, the circular plate-shaped permanent magnet 188 for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism can realize moving action.

Referring to fig. 4, the bolt-connected planar high-efficiency stamping mechanism 19 includes a connecting plate 191 for the bolt-connected planar high-efficiency stamping mechanism, a bolt 192 for the bolt-connected planar high-efficiency stamping mechanism, a rod body inserting groove structure 193 for the bolt-connected planar high-efficiency stamping mechanism, a flat plate 194 for the bolt-connected planar high-efficiency stamping mechanism, a 1/4 annular structure 195 for the bolt-connected planar high-efficiency stamping mechanism, and a curved surface structure 196 for the bolt-connected planar high-efficiency stamping mechanism; the bottom of the connecting plate 191 for the bolt connection type plane high-efficiency stamping mechanism is connected with a flat plate body 194 for the bolt connection type plane high-efficiency stamping mechanism through a bolt 192 for the bolt connection type plane high-efficiency stamping mechanism, the center of the top of the connecting plate 191 for the bolt connection type plane high-efficiency stamping mechanism is provided with a rod body inserting groove structure 193 for the bolt connection type plane high-efficiency stamping mechanism, the flat plate body 194 for the bolt connection type plane high-efficiency stamping mechanism is provided with a 1/4 annular structure 195 for the bolt connection type plane high-efficiency stamping mechanism which is of an integral structure with the flat plate body 194, and the side surface of the 1/4 annular structure 195 for the bolt connection type plane high-efficiency stamping mechanism is a curved surface structure 196 for the bolt connection type; the rod body at the bottom end of the main telescopic rod 14 is arranged in the rod body inserting groove structure 193 for the bolt connection type plane high-efficiency stamping mechanism; the cross section of the curved surface structure 196 for the bolt connection type plane high-efficiency stamping mechanism is an 1/4 circular structure, and the bolt connection type plane high-efficiency stamping mechanism mainly has the following functions: the rod body at the bottom end of the main telescopic rod 14 is arranged in the rod body inserting groove structure 193 for the bolt connection type plane high-efficiency stamping mechanism; the cross section of the curved surface structure 196 for the bolt connection type plane high-efficiency stamping mechanism is an 1/4 circular structure, so when the device contacts the ground, the curved surface structure 196 for the bolt connection type plane high-efficiency stamping mechanism cannot cause an edge structure to the ground, and the leveled horizontal plane is improved.

The specific use mode is as follows: in the work of the invention, the power input end of the coil 8 is connected with a current controller in the prior art, and the current controller has the function of controlling the current and the current direction, so that the current can be continuously switched into the direction, under the action of an electromagnetic principle, the iron core 6 continuously changes the field intensity of magnetic poles at two ends, under the principle that like poles repel each other and opposite poles attract each other and the combined action of the main spiral spring 16, the bolt connection type plane high-efficiency stamping mechanism 19 continuously stamps the ground, and at the moment, the device is pushed to perform the function of stamping and tamping the plane.

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 (10)

1. The utility model provides a remove combination dynamic vibration levelling machine, includes main hollow shell (1), its characterized in that: the structure is characterized in that vertical plate structures (2) which are integrated with the main hollow shell (1) are arranged on two sides of the bottom of the main hollow shell (1), two auxiliary hollow shells (17) which are integrated with the main hollow shell (1) are arranged on the top of the side face of the main hollow shell (1), a main rotating shaft (7) is arranged in each vertical plate structure (2) through a bearing, a roller (4) is arranged at the opposite end of each main rotating shaft (7), a plurality of tip structures (3) which are integrated with the roller (4) are arranged on the side face of the roller (4), an iron core (6) is arranged at the center of the bottom of the main hollow shell (1), a coil (8) is arranged on the side face of the iron core (6), a main hollow structure (9) is arranged right above the coil (8) of the main hollow shell (1), and an auxiliary hollow structure (11) is arranged at the center of each auxiliary hollow shell (17), the main hollow structure (9) is connected with the two pairs of hollow structures (11) through a main pipeline hole (10), a circular plate-shaped permanent magnet guide type driving up-down moving mechanism (18) and a piston sealing guide type driven up-down moving mechanism (12) are respectively placed inside the main hollow structure (9) and the two pairs of hollow structures (11), hydraulic oil (13) is filled in the space above the circular plate-shaped permanent magnet guide type driving up-down moving mechanism (18) and the piston sealing guide type driven up-down moving mechanism (12) inside the main hollow shell (1), a main telescopic rod (14) is installed at the center of the bottom of the two piston sealing guide type driven up-down moving mechanisms (12), a rod body of the main telescopic rod (14) is installed in an inner ring of a compressed main spiral spring (16), and the main telescopic rod (14) penetrates through the centers of the bottoms of the two pairs of hollow shells (17), and a main sealing ring (15) is arranged at the penetrating position, and a bolt connection type plane high-efficiency stamping mechanism (19) is arranged at the bottom of each main telescopic rod (14).

2. The mobile combination dynamic vibratory finishing machine of claim 1, further comprising: the piston seal guide type driven up-and-down moving mechanism (12) comprises a piston plate (121) for the piston seal guide type driven up-and-down moving mechanism, a conical guide structure (122) for the piston seal guide type driven up-and-down moving mechanism, a first annular groove structure (123) for the piston seal guide type driven up-and-down moving mechanism, a second annular groove structure (124) for the piston seal guide type driven up-and-down moving mechanism, a first sealing ring (125) for the piston seal guide type driven up-and-down moving mechanism, a second sealing ring (126) for the piston seal guide type driven up-and-down moving mechanism and a mounting groove structure (127) for the piston seal guide type driven; the conical guide structure (122) for the piston seal guide type driven up-and-down moving mechanism is arranged at the top end of the piston plate (121) for the piston seal guide type driven up-and-down moving mechanism and has an integrated structure with the piston plate (121) for the piston seal guide type driven up-and-down moving mechanism, a first annular groove structure (123) for the piston seal guide type driven up-and-down moving mechanism and a second annular groove structure (124) for the piston seal guide type driven up-and-down moving mechanism are arranged on the side surface of the piston plate (121) for the piston seal guide type driven up-and-down moving mechanism, the piston plate (121) for the piston seal guide type driven up-and-down moving mechanism is located in the first annular groove structure (123) for the piston seal guide type driven up-and-down moving mechanism and the second annular groove structure (124) for the piston seal guide type driven up-and-down moving mechanism And a second sealing ring (126) for the piston seal guide type driven vertical moving mechanism, wherein a mounting groove structure (127) for the piston seal guide type driven vertical moving mechanism is arranged at the center of the bottom of the piston plate (121) for the piston seal guide type driven vertical moving mechanism.

3. A mobile combination powered vibratory finishing machine as set forth in claim 2 in which: the piston plate (121) for the piston seal guide type driven vertical movement mechanism is installed inside the sub hollow structure (11).

4. A mobile combination powered vibratory finishing machine as set forth in claim 2 in which: the top rod body of the main telescopic rod (14) is arranged in the mounting groove structure (127) for the piston seal guide type driven up-down moving mechanism.

5. The mobile combination dynamic vibratory finishing machine of claim 1, further comprising: the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism (18) comprises a piston plate (181) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a conical guiding structure (182) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a first annular groove structure (183) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a second annular groove structure (184) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a first sealing ring (185) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a second sealing ring (186) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism, a mounting groove structure (187) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism; the conical guide structure (182) for the disc-shaped permanent magnet guide type driving up-down moving mechanism is arranged at the top end of the piston plate (181) for the disc-shaped permanent magnet guide type driving up-down moving mechanism and has an integrated structure with the piston plate (181) for the disc-shaped permanent magnet guide type driving up-down moving mechanism, a first annular groove structure (183) for the disc-shaped permanent magnet guide type driving up-down moving mechanism and a second annular groove structure (184) for the disc-shaped permanent magnet guide type driving up-down moving mechanism are arranged on the side surface of the piston plate (181) for the disc-shaped permanent magnet guide type driving up-down moving mechanism, and the piston plate (181) for the disc-shaped permanent magnet guide type driving up-down moving mechanism is located in the first annular groove structure (183) for the disc-shaped permanent magnet guide type driving up-down moving mechanism and the second annular groove structure (184) for the disc- The guide type driving up-down moving mechanism comprises a first sealing ring (185) for a guide type driving up-down moving mechanism and a second sealing ring (186) for a circular plate-shaped permanent magnet guide type driving up-down moving mechanism, wherein a circular plate-shaped permanent magnet guide type driving up-down moving mechanism mounting groove structure (187) is arranged at the center of the bottom of a piston plate (181) for the circular plate-shaped permanent magnet guide type driving up-down moving mechanism, and a circular plate-shaped permanent magnet guide type driving up-down moving mechanism circular plate-shaped permanent magnet (188) is mounted inside the circular plate-shaped permanent magnet guide type driving up-down.

6. The mobile combination dynamic vibratory finishing machine of claim 5, wherein: the circular plate-shaped permanent magnet guide type driving up-down moving mechanism is arranged in the main hollow structure (9) through a piston plate (181).

7. The mobile combination dynamic vibratory finishing machine of claim 5, wherein: the circular plate-shaped permanent magnet (188) for the circular plate-shaped permanent magnet guiding type driving up-down moving mechanism is a circular plate structure made of neodymium iron boron materials.

8. The mobile combination dynamic vibratory finishing machine of claim 1, further comprising: the bolt connection type plane efficient stamping mechanism (19) comprises a connecting plate (191) for the bolt connection type plane efficient stamping mechanism, a bolt (192) for the bolt connection type plane efficient stamping mechanism, a rod body inserting groove structure (193) for the bolt connection type plane efficient stamping mechanism, a flat plate body (194) for the bolt connection type plane efficient stamping mechanism, an 1/4 annular structure (195) for the bolt connection type plane efficient stamping mechanism and a curved surface structure (196) for the bolt connection type plane efficient stamping mechanism; the bottom of bolted connection formula high-efficient stamping mechanism of plane is passed through bolted connection formula high-efficient stamping mechanism and is connected a bolted connection formula plane high-efficient stamping mechanism and use flat body (194) with bolt (192), bolted connection formula plane high-efficient stamping mechanism is provided with bolted connection formula plane high-efficient stamping mechanism and uses body of rod to insert groove structure (193) with connecting plate (191) top center, bolted connection formula plane high-efficient stamping mechanism is provided with the bolted connection formula plane high-efficient stamping mechanism of structure with flat body (194) with its integral type structure and uses 1/4 annular structure (195), the side of bolted connection formula plane high-efficient stamping mechanism is bolted connection formula plane high-efficient stamping mechanism and uses curved surface structure (196).

9. The mobile combination powered vibratory finishing machine of claim 8, wherein: the rod body inserted into the groove structure (193) for the bolt connection type plane efficient stamping mechanism is internally provided with a rod body at the bottom end of the main telescopic rod (14).

10. The mobile combination powered vibratory finishing machine of claim 8, wherein: the cross section of the curved surface structure (196) for the bolt connection type plane high-efficiency stamping mechanism is 1/4 circular structure.

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