CN108999410B - Annular guide movable type vibrating device - Google Patents

Abstract

The invention discloses an annular guide movable type vibrating device, which comprises a guide vibrating installation cylinder, wherein the outer part of the guide vibrating installation cylinder is equiangularly provided with a plurality of cambered elastic installation plates through a quick rotating installation structure, cambered reset rubber plates are longitudinally embedded in the middle positions of the cambered elastic installation plates, the cambered elastic installation plates at the two ends of the quick rotating installation structure are matched with the guide vibrating installation cylinder and are respectively provided with a guide moving vibrating module, and the guide moving vibrating module comprises a telescopic pneumatic vibrating structure arranged on the cambered elastic installation plate at one side of the quick rotating installation structure and an adaptive guide moving structure arranged on the cambered elastic installation plate at the other side of the quick rotating installation structure, high efficiency and good quality.

Description

Annular guide movable type vibrating device

Technical Field

The invention relates to the field of construction machinery, in particular to an annular guide movable vibrating device.

Background

The concrete vibrator is a mechanical concrete tamping tool, but for the cylindrical concrete vibrating operation, the traditional vibrating structure is adopted, the effect is poor, and various problems occur in the use process.

The invention is provided in order to solve the problems, and overcomes the problems that when a vertical cylindrical operation surface is vibrated, the contact is unstable, the transmission of the vibrating operation is unstable, the vibrating efficiency is low, the diameter change of the vibrating operation cannot be adapted, the trafficability of the guiding movement is poor and the like due to the adoption of a traction moving type structure of a vibrating device which is currently used.

Disclosure of Invention

The present invention is directed to a ring-shaped guiding mobile vibrating device to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

an annular guide movable type vibrating device comprises a guide vibrating installation cylinder, wherein a plurality of cambered surface elastic installation plates are arranged at equal angles outside the guide vibrating installation cylinder through a quick rotating installation structure, cambered surface reset rubber plates are longitudinally embedded in the middle positions of the cambered surface elastic installation plates, the quick rotating installation structure comprises a rotating installation plate arranged at the left end of each cambered surface elastic installation plate and a rotating installation frame arranged at the right side of each cambered surface elastic installation plate in a matched mode, installation studs vertically penetrate through the middle positions of the rotating installation plate and the rotating installation frame between the adjacent cambered surface elastic installation plates, manual turntables are arranged at the upper ends of the installation studs, installation internal threads are arranged at the upper ends and the lower ends of the rotating installation frame in a matched mode, rotating sleeves are arranged at the middle positions of the rotating installation plates in a matched mode, guide moving vibrating modules are arranged at the cambered surface elastic installation plates at the two ends of the quick rotating installation structure in a matched mode of the guide, the guiding mobile vibration module comprises a telescopic pneumatic vibration structure arranged on a cambered surface elastic mounting plate on one side of the quick rotation mounting structure and an adaptive guiding mobile structure arranged on a cambered surface elastic mounting plate on the other side of the quick rotation mounting structure, the adaptive guiding mobile structure comprises a guiding mounting cylinder vertically arranged on the inner side of the left end of the cambered surface elastic mounting plate, the telescopic pneumatic vibration structure comprises a telescopic guide cylinder vertically arranged on the inner side of the left end of the cambered surface elastic mounting plate, a guiding telescopic internal thread cylinder is arranged at the middle position of the telescopic guide cylinder, telescopic internal thread cylinders matched with the guiding of the cambered surface elastic mounting plate are embedded with a telescopic control motor, the telescopic control motor is matched with the guiding telescopic internal thread cylinder to extend into a telescopic stud, and the lower end of the guiding telescopic internal thread cylinder is matched with the guiding vibration mounting cylinder to be provided with an arc guide cylinder, one end that arc draft tube cooperation direction was vibrated the installation section of thick bamboo and is provided with the ebonite and pass and shake the board, the inside equidistant of arc draft tube is provided with a plurality of pneumatic spring leaves that shake, and the lower extreme of pneumatic spring leaf that shakes all connects and is provided with the biography of stretching into the ebonite and passing and shake the board and shake the post.

As a further scheme of the invention: the inside of direction installation section of thick bamboo all is provided with direction expanding spring through the flexible spacing post of direction, and direction expanding spring all stretches out outward and is provided with the direction and removes the wheel carrier, and the wheel carrier is removed in the direction through the coaxial electric drive that is provided with of pivot to the direction.

As a further scheme of the invention: the outer side of the guide vibrating installation cylinder is matched with the electric drive moving wheels, and moving limiting guide rails are longitudinally arranged on the guide vibrating installation cylinder.

As a further scheme of the invention: the left end of arc draft tube all is provided with the discharge orifice, and the right-hand member of arc draft tube all stretches out and is provided with elastic flow guide tube, runs through the intake pipe intercommunication that sets up in elastic flow guide tube's the other end and the cambered surface resilient mounting board, and the intake pipe stretches out cambered surface resilient mounting board and is provided with an external screw thread installation section of thick bamboo.

As a still further scheme of the invention: the outside of cambered surface resilient mounting board is provided with elasticity annular draft tube, and the inboard cooperation external screw thread installation section of thick bamboo of elasticity annular draft tube all is provided with water conservancy diversion screw thread installation cover through the elasticity honeycomb duct that stretches out the setting, and the right-hand member level of elasticity annular draft tube stretches out and is provided with main intake pipe.

Compared with the prior art, the invention has the beneficial effects that: the invention overcomes the problems that the transmission of the vibrating operation is unstable, the vibrating efficiency is low, the diameter change of the vibrating operation cannot be adapted, the trafficability of the guiding movement is poor and the like due to unstable contact when the vibrating device used at present vibrates a vertical cylindrical operation surface due to the adoption of a traction moving type structure, so that the vibrating device has the advantages of compact structural design, stable guiding movement, elastic telescopic structure, strong adaptability, comprehensive and stable multipoint vibration, continuous vibration, high efficiency, good quality and the like.

Drawings

Fig. 1 is a schematic structural view of an annularly guided mobile tamper.

Fig. 2 is a schematic structural view of a guided mobile tamper module in an annularly guided mobile tamper.

Fig. 3 is a schematic structural view of a quick-turn mounting structure in an annularly guided mobile tamper.

Fig. 4 is a sectional view of an elastic ring guide cylinder in a ring guide type mobile tamper.

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 and 3, in the embodiment of the present invention, an annular guiding mobile vibrating device comprises a guiding vibrating installation cylinder 3, a plurality of cambered elastic installation plates 2 are arranged on the outer portion of the guiding vibrating installation cylinder 3 at equal angles through a fast rotating installation structure, cambered reset rubber plates 1 are longitudinally embedded in the middle positions of the cambered elastic installation plates 2, guiding mobile vibrating modules are arranged on the cambered elastic installation plates 2 at the two ends of the fast rotating installation structure in cooperation with the guiding vibrating installation cylinder 3, each guiding mobile vibrating module comprises a telescopic pneumatic vibrating structure arranged on the cambered elastic installation plate 2 at one side of the fast rotating installation structure and a self-adaptive guiding mobile structure arranged on the cambered elastic installation plate 2 at the other side of the fast rotating installation structure, the fast rotating installation structure comprises a rotating installation disc 24 arranged at the left end of the cambered elastic installation plate 2 and a rotating installation frame 23 arranged on the right side of the cambered elastic installation plate 2 in cooperation, mounting studs 4 vertically penetrate through the middle positions of the adjacent cambered surface elastic mounting plates 2 through the rotary mounting plate 24 and the rotary mounting frame 23, manual turntables 5 are arranged at the upper ends of the mounting studs 4, mounting internal threads are arranged on the upper and lower sides of the rotary mounting frame 23 in a matched mode with the mounting studs 4, and a rotary sleeve 25 is arranged at the middle position of the rotary mounting plate 24 in a matched mode with the mounting studs 4, so that the mounting device is suitable for operation mounting junctions with different diameters and is wide in use scene;

referring to fig. 1, 2 and 4, in the embodiment of the present invention, the adaptive guiding and moving structure includes a guiding and mounting cylinder 20 vertically disposed on the inner side of the left end of the cambered elastic mounting plate 2, guiding and extending springs 19 are disposed inside the guiding and mounting cylinder 20 through guiding and extending limiting posts 21, guiding and extending wheel frames 17 are disposed on the guiding and extending springs 19 and extending outwards, an electrically driven moving wheel 18 is coaxially disposed on the guiding and moving wheel frames 17 through a rotating shaft, a moving limiting guide rail 16 is longitudinally disposed on the outer side of the guiding and vibrating mounting cylinder 3 in cooperation with the electrically driven moving wheel 18, the telescopic pneumatic vibrating structure includes a telescopic guiding cylinder 11 vertically disposed on the inner side of the left end of the cambered elastic mounting plate 2, a guiding and extending internal thread cylinder 10 is disposed in the middle of the telescopic guiding and extending cylinder 11, a telescopic control motor 8 is embedded in the inner part of the cambered elastic mounting plate 2 in cooperation with, the telescopic control motors 8 are matched with the guide telescopic internal thread cylinder 10 to extend into the guide telescopic stud 9, the lower end of the guide telescopic internal thread cylinder 10 is matched with the guide vibrating mounting cylinder 3 to be provided with an arc-shaped guide cylinder 12, one end of the arc-shaped guide cylinder 12 matched with the guide vibrating mounting cylinder 3 is provided with a hard rubber vibration transmitting plate 15, a plurality of pneumatic vibration starting reeds 14 are arranged in the arc-shaped guide cylinder 12 at equal intervals, the lower ends of the pneumatic vibration starting reeds 14 are connected with vibration transmitting columns which extend downwards into the hard rubber vibration transmitting plate 15, the left end of the arc-shaped guide cylinder 12 is provided with an outflow hole 13, the right end of the arc-shaped guide cylinder 12 extends out to be provided with an elastic guide pipe 22, the other end of the elastic guide pipe 22 is communicated with an air inlet pipe 7 which penetrates through the arc-shaped elastic mounting plate 2, the air inlet pipe 7 extends out of the arc-shaped elastic mounting plate 2 to be, the inboard cooperation external screw thread installation section of thick bamboo 6 of the cyclic annular draft tube 26 of elasticity all is provided with water conservancy diversion screw thread installation cover 27 through the elasticity honeycomb duct 22 that stretches out the setting, and the right-hand member level of the cyclic annular draft tube 26 of elasticity stretches out and is provided with main intake pipe 28, and the direction removal is stable, and the multiple spot vibrates comprehensively stably, vibrates coherently, efficient high quality.

The working principle of the invention is as follows: installing the guide vibration installation cylinder 3 at a target position in a building, matching the diameter, selecting different numbers of cambered surface elastic installation plates 2, matching a rotary installation frame 23 and a rotary installation disc 24, installing an electric drive moving wheel 18 at the outer side of the guide vibration installation cylinder 3 through an installation stud 4 and a rotary sleeve 25 in an end-to-end connection mode according to a moving limit guide rail 16, realizing movement by starting the electric drive moving wheel 18 along the moving limit guide rail 16, intermittently starting a telescopic control motor 8 after moving for a certain distance, enabling the arc guide cylinder 12 and a hard rubber vibration transmission plate 15 to telescopically move through thread transmission, enabling the hard rubber vibration transmission plate 15 to contact with the outer side of the guide vibration installation cylinder 3, installing the elastic guide pipe 22 and an external thread installation cylinder 6, communicating a main air inlet pipe 7 with high-pressure air transmission equipment arranged outside, entering the arc guide cylinder 12 to act on a pneumatic vibration reed 14 through flow guiding, the device is enabled to act on the guide vibration installation cylinder 3 and the concrete inside the guide vibration installation cylinder through the transmission of the vibration transmission columns and the hard rubber vibration transmission plate 15, the vibration operation is carried out on the concrete in the area, then the hard rubber vibration transmission plate 15 is lifted and moved for a certain distance, and the operation is repeated to complete the vibration operation.

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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. An annular guide movable type vibrating device comprises a guide vibrating installation cylinder (3), wherein a plurality of cambered surface elastic installation plates (2) are arranged at equal angles outside the guide vibrating installation cylinder (3) through a quick rotating installation structure, cambered surface reset rubber plates (1) are vertically embedded in the middle positions of the cambered surface elastic installation plates (2), the quick rotating installation structure comprises a rotating installation disc (24) arranged at the left end of the cambered surface elastic installation plate (2) and a rotating installation frame (23) arranged at the right side of the cambered surface elastic installation plate (2) in a matched manner, installation studs (4) vertically penetrate through the middle positions of the rotating installation disc (24) and the rotating installation frame (23) between the adjacent cambered surface elastic installation plates (2), a manual rotating disc (5) is arranged at the upper end of each installation stud (4), and installation internal threads are arranged on the upper and lower portions of the rotating installation frame (23) in a matched manner, and the middle position of the rotary mounting disc (24) is matched with the mounting stud (4) and is provided with a rotary sleeve (25), the cambered surface elastic mounting plates (2) at the two ends of the quick-rotating mounting structure are matched with the guide vibration mounting cylinders (3) and are provided with guide moving vibration modules, the guide moving vibration modules comprise a telescopic pneumatic vibration structure arranged on the cambered surface elastic mounting plate (2) at one side of the quick-rotating mounting structure and a self-adaptive guide moving structure arranged on the cambered surface elastic mounting plate (2) at the other side of the quick-rotating mounting structure, and are characterized in that the self-adaptive guide moving structure comprises a guide mounting cylinder (20) vertically arranged on the inner side of the left end of the cambered surface elastic mounting plate (2), the telescopic pneumatic vibration structure comprises a telescopic guide cylinder (11) vertically arranged on the inner side of the left end of the cambered surface elastic mounting plate (2), and a guide telescopic internal thread cylinder (10) is arranged at the middle position of the telescopic guide, the flexible interior thread section of thick bamboo (10) of inside cooperation direction of cambered surface elastic mounting panel (2) all inlays and is provided with flexible control motor (8), and flexible interior thread section of thick bamboo (10) of flexible control motor (8) all cooperation direction are stretched into and are provided with flexible double-screw bolt (9), and the lower extreme cooperation direction vibration installation section of thick bamboo (3) of the flexible interior thread section of thick bamboo of direction (10) are provided with arc draft tube (12), and the one end that installation section of thick bamboo (3) was vibrated in arc draft tube (12) cooperation direction is provided with hard rubber and passes and shake board (15), the inside equidistant a plurality of pneumatic reed (14) of having played are provided with, and the lower extreme of pneumatic reed (14) of having played all connects the biography vibration post that is provided with the hard rubber that stretches into downwards and passes and shake board.

2. An annular guide movable type vibrating device according to claim 1, wherein the guide mounting cylinders (20) are provided with guide extension springs (19) inside through guide extension limiting columns (21), the guide extension springs (19) are provided with guide movable wheel frames (17) extending outwards, and the guide movable wheel frames (17) are coaxially provided with electrically driven movable wheels (18) through rotating shafts.

3. An annularly guided mobile tamper arrangement as claimed in claim 1, characterized in that the outer side of the guided tamper mounting cylinder (3) is provided with longitudinally displaceable limiting rails (16) in cooperation with electrically driven displaceable wheels (18).

4. The movable annular guide vibrating device according to claim 1, wherein the left end of each arc guide cylinder (12) is provided with an outflow hole (13), the right end of each arc guide cylinder (12) extends to form an elastic guide pipe (22), the other end of each elastic guide pipe (22) is communicated with an air inlet pipe (7) penetrating through the elastic mounting plate (2), and the air inlet pipe (7) extends out of the elastic mounting plate (2) to form an external thread mounting cylinder (6).

5. The movable annular guide vibrating tamper according to claim 1, wherein an elastic annular guide cylinder (26) is arranged outside the cambered surface elastic mounting plate (2), the inner side of the elastic annular guide cylinder (26) is matched with the external thread mounting cylinder (6) and is provided with a guide thread mounting sleeve (27) through the elastic guide pipe (22) which extends, and the right end of the elastic annular guide cylinder (26) horizontally extends to be provided with a main air inlet pipe (28).

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