CN112064432B - Concrete vibrating equipment for cast-in-situ ballastless track bed construction - Google Patents

Abstract

The invention discloses concrete vibrating equipment for cast-in-situ ballastless track bed construction, which structurally comprises a frame, a driving motor, an electric cabinet and a layered vibrating structure, wherein the driving motor is arranged on one horizontal side of the frame; according to the invention, the stirring beads are fixed on the inner wall of the square frame and the balance rod after being penetrated by the shaking wire from the middle, the contact positions of the stirring beads and the shaking wire are fixed by using glue, and the connection between the stirring beads and the shaking wire is stable.

Description

Concrete vibrating equipment for cast-in-situ ballastless track bed construction

Technical Field

The invention relates to the field of construction machinery, in particular to concrete vibrating equipment for cast-in-situ ballastless track bed construction.

Background

The concrete vibration is that when the concrete casting component is well mixed by the concrete mixer, the air bubbles in the concrete casting component must be removed, the concrete is rammed, the concrete is compactly combined, the phenomena of honeycomb pitting surface and the like of the concrete are eliminated, the strength of the concrete is improved, the quality of the concrete component is ensured, and the concrete is often in use at present because the disposable casting and ramming concrete is too thick, the layering is not clear, the concrete is not connected clearly, the vibration time is insufficient, and the air bubbles are not removed, so that the honeycomb shape is formed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the concrete vibrating equipment for the cast-in-situ ballastless track bed construction structurally comprises a frame, a driving motor, an electric cabinet and layered vibrating structures, wherein the driving motor is installed on one horizontal side of the frame, the electric cabinet is further installed at the top end of the frame, the electric cabinet is electrically connected with the driving motor, more than two layered vibrating structures are installed on the frame, and the two adjacent layered vibrating structures are distributed at equal intervals;

the layered vibrating structure comprises a vibrating motor, a resonant shaft, a connecting rod, a connecting box, a second connecting rod and a vibrating head, wherein the vibrating motor is arranged on a frame, the connecting box is arranged on the connecting rod, the connecting box is mechanically connected with the vibrating motor through the resonant shaft, the second connecting rod is arranged at the bottom end of the connecting box, the vibrating head is arranged at the tail end of the second connecting rod, and the vibrating motor is electrically connected with an electric cabinet.

As a further optimization of the technical scheme, the second connecting rod is formed by movably embedding a solid cylindrical rod and a hollow outer wrapping rod, and the outer wrapping rod is of a hollow circular structure with an incomplete section.

As the further optimization of this technical scheme, the vibrating head is including removing bubble vibrting spear, screed, it is equipped with two to remove bubble vibrting spear, installs the cylinder pole at the second connecting rod respectively and outsourcing pole's end, and these two bubble vibrting spear activity block that remove, the screed is all installed to the upper and lower both ends face of removing bubble vibrting spear, the screed is square board, and the area of its terminal surface is greater than removes bubble vibrting spear, these two screed activity blocks.

As a further optimization of the technical scheme, the defoaming vibrating rod is provided with an adapter, a square frame, a balance rod, a shaking line and stirring beads, the center of the square frame is hollow, the space in the middle of the square frame is divided into two parts by the balance rod, more than two stirring beads are arranged in the two spaces and are uniformly and equidistantly distributed, the stirring beads are respectively fixed on the inner wall of the square frame and the balance rod by the shaking line, the distances between two adjacent stirring beads are equal, the adapter is arranged in the middle of the outer end face of the square frame, the adapter is horizontally fixed with the square frame, and the adapter and the balance rod are on the same axis.

As a further optimization of the technical scheme, the stirring beads are fixed on the inner wall of the square frame and the balance rod after being penetrated by a shaking wire from the middle, and the contact positions of the stirring beads and the shaking wire are fixed by glue.

As a further optimization of the technical scheme, a linear groove is formed in the horizontal line of the adapter, and the horizontal width of the linear groove is smaller than that of the adapter.

As the further optimization of this technical scheme, the position that second connecting rod and linking box are connected is equipped with operating system, operating system includes annular strip, lifting column, linking piece horizontal installation is inside linking box, linking piece and linking box inner wall level are fixed, the right intermediate position of linking piece is dug the sky and is formed the regulation mouth, be equipped with the annular strip more than twice on the inner wall of the regulation mouth of linking piece, the distance between these annular strips about equaling, mutually support between lifting column and these annular strips, lifting column bottom and outsourcing pole horizontal fixation are equipped with the protrusion more than two circles on the lifting column, lifting column and annular strip adopt sliding fit, cylindrical rod and linking box horizontal fixation.

Advantageous effects

Compared with the prior art, the concrete vibrating equipment for cast-in-situ ballastless track bed construction has the following advantages:

1. according to the invention, under the mutual matching of the defoaming vibrating rod, the movable motor and the resonant shaft, the stirring beads can move up and down along with the vibration waves, and the structure for fixing the stirring beads is a shaking line, so that the bubbles can be punctured once the shaking line touches the bubbles in the concrete, and the vibrated concrete can be vibrated more fully.

2. According to the invention, the stirring beads are fixed on the inner wall of the square frame and the balance rod after being penetrated by the shaking wire from the middle, the contact positions of the stirring beads and the shaking wire are fixed by using glue, and the connection between the stirring beads and the shaking wire is stable.

3. The balance rod design of the defoaming vibrating rod shortens the length of the shaking line, avoids the problem of line breakage in the vibrating process, improves the stability, increases the number of the stirring beads, and ensures that the stirring beads penetrate into concrete to vibrate the concrete.

_4. According to the invention, the trowelling plates are arranged on the upper end surface and the lower end surface of the defoaming vibrating rod, after the two trowelling plates are movably clamped, the surface of the concrete is defoamed and trowelled, and the effect is better compared with the stirring beads.

5. According to the invention, the second connecting rod is separated through the lifting system, so that the foam removing vibrating rods on the outer wrapping rod and the cylindrical rod are layered, the thick concrete is poured and compacted at one time in a layered manner, the concrete with unclear layering is vibrated, and the vibrating effect is improved.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

fig. 1 is a schematic perspective view of a concrete vibrating device for cast-in-situ ballastless track bed construction.

Fig. 2 is a schematic structural diagram of a layered vibration structure according to the present invention.

Fig. 3 is a schematic structural view of the vibrating head according to the present invention.

Fig. 4 is a partial side schematic view of the layered vibration structure of the present invention.

Fig. 5 is a partial side schematic view of a layered vibrating structure of the present invention with a screed mounted thereon.

In the figure: frame 1, driving motor 2, electric cabinet 3, hierarchical vibrating structure 4 _、 Vibration motor 41, resonance shaft 42, connecting rod 43, engagement box 44, second connecting rod 45, and vibration head 46 _、 Cylindrical rod a _、 Outer wrapping rod b _、 Foam removing vibrating rod 461 and screeding plate 462 _、 Adaptor 4-1, square frame 4-3, balance bar 4-4, shaking line 4-5, stirring bead 4-6 _、 Linear groove 4-2 _、 Lifting system _、 Ring 431, lifting column 432, and engagement block 433.

Detailed Description

In order that the manner in which the invention is accomplished, as well as the manner in which it is characterized and attained and the effects thereof, a more particular description of the invention will be rendered by reference to the appended drawings.

Example 1

Referring to fig. 1-5, the invention provides concrete vibrating equipment for cast-in-situ ballastless track bed construction, which structurally comprises a frame 1, a driving motor 2, an electric cabinet 3 and a layered vibrating structure 4, wherein the driving motor 2 is arranged on one horizontal side of the frame 1, the electric cabinet 3 is further arranged at the top end of the frame 1, the electric cabinet 3 is electrically connected with the driving motor 2, more than two layered vibrating structures 4 are arranged on the frame 1, and the two adjacent layered vibrating structures 4 are distributed at equal intervals;

the layered vibration structure 4 comprises a vibration motor 41, a resonance shaft 42, a connecting rod 43, a connection box 44, a second connecting rod 45 and a vibration head 46, wherein the vibration motor 41 is arranged on the frame 1, the connection box 44 is arranged on the connecting rod 43, the connection box 44 and the vibration motor 41 are mechanically connected through the resonance shaft 42, the second connecting rod 45 is arranged at the bottom end of the connection box 44, the vibration head 46 is arranged at the tail end of the second connecting rod 45, and the vibration motor 41 is electrically connected with the electric cabinet 3.

The second connecting rod 45 is formed by movably jogging a solid cylindrical rod a and a hollow outer wrapping rod b, and the outer wrapping rod b is of a hollow round structure with an incomplete section.

The vibrating head 46 includes the bubble removal vibratable 461, the trowel 462, the bubble removal vibratable 461 is equipped with two, installs the end at cylinder pole a and outsourcing pole b of second connecting rod 45 respectively, these two bubble removal vibratable 461 activity block, trowel 462 is all installed to the upper and lower both ends face of bubble removal vibratable 461, trowel 462 is square board, and the area of its terminal surface is greater than bubble removal vibratable 461, these two trowel 462 activity blocks, installs trowel 462 at the upper and lower both ends face of bubble removal vibratable 461, because trowel 462 is square board, and the area of its terminal surface is greater than bubble removal vibratable 461, after two trowel 462 activity blocks, carries out surface defoaming and trowel to concrete, relative stirring pearl 4-6, and the effect is better.

The foam removing vibration rod 461 is provided with an adaptor 4-1, a square frame 4-3, a balance rod 4-4, a shaking line 4-5 and stirring beads 4-6, the middle of the inside of the square frame 4-3 is hollow, the middle of the inside of the square frame 4-3 is divided into two parts by the balance rod 4-4, more than two stirring beads 4-6 are arranged in the two parts, the stirring beads 4-6 are uniformly distributed at equal intervals, the stirring beads 4-6 are respectively fixed on the inner wall of the square frame 4-3 and the balance rod 4-4 by the shaking line 4-5, the distance between two adjacent stirring beads 4-6 is equal, the adaptor 4-1 is arranged at the middle of the outer side end face of the square frame 4-3, the adaptor 4-1 and the square frame 4-3 are horizontally fixed, the adaptor 4-1 and the balance rod 4-4 are on the same axis, after the vibration motor 41 is electrified, the generated vibration is transmitted to the vibration structure 4 through the resonance shaft 42, the vibration is transmitted to the vibration structure 4, the shaking beads 4-6 are arranged in the vibration structure, and the vibration structure 4-6 are fully stamped along with the vibration of the vibration structure 4-3, and the vibration beads 4-6 are fully stamped along with the vibration of the vibration structure after the shaking line is arranged in the vibration structure, and the vibration beads 4-6 are fully hit down along with the vibration structure, and the vibration of the vibration structure.

The stirring beads 4-6 are fixed on the inner wall of the square frame 4-3 and the balance rod 4-4 after being penetrated by the shaking wire 4-5 from the middle, the contact positions of the stirring beads 4-6 and the shaking wire 4-5 are fixed by glue, and compared with the mode of horizontally fixing the stirring beads 4-6 by the shaking wires 4-5, the mode is suitable for losing viscosity of the glue of the stirring beads 4-6 and the shaking wire 4-5, the stirring beads 4-6 cannot be thrown out, workers are accidentally injured, or the stirring beads are embedded into concrete.

A linear groove 4-2 is formed in the horizontal line of the connector 4-1, the horizontal width of the linear groove 4-2 is smaller than that of the connector 4-1, and when the trowelling plate 462 and the defoaming vibration rod 461 are clamped, the linear groove 4-2 is arranged, so that the connection relation between the trowelling plate 462 and the defoaming vibration rod 461 is enhanced. The implementation steps and the principle thereof:

s1: after the vibration motor 41 is electrified, the generated vibration is resonated through the resonance shaft 42 and is transmitted to the layered vibration structure 4, the stirring beads 4-6 arranged in the square frame 4-3 in the foam removing vibration rod 461 can move up and down along with the vibration waves, the one-time pouring and tamping of concrete is too thick, and the layered and unclear concrete is vibrated, because the stirring beads 4-6 vibrate up and down and are used for fixing the shaking wire 4-5, once the shaking wire 4-5 contacts with the air bubbles in the concrete, the air bubbles are punctured, and the vibrated concrete is vibrated more fully.

S2: in the step S1, the stirring beads 4-6 are fixed on the inner wall of the square frame 4-3 and the balance rod 4-4 after being penetrated by the shaking wire 4-5 from the middle, the contact positions of the stirring beads 4-6 and the shaking wire 4-5 are fixed by glue, and the connection between the stirring beads 4-6 and the shaking wire 4-5 is stable, so that compared with the mode of horizontally fixing the stirring beads 4-6 by adopting the two shaking wires 4-5, the mode is suitable for losing the viscosity of the glue of the stirring beads 4-6 and the shaking wire 4-5, the stirring beads 4-6 can not be thrown out, and the staff is not hurt or embedded in concrete.

S3: in the step S1, the square frame 4-3 of the debubbling vibration rod 461 is divided into two parts by the balance rod 4-4 when the stirring beads 4-6 are installed, so that the length of the shaking line 4-5 is shortened, the overlong length of the shaking line 4-5 is avoided, the problem of broken line in the vibration process is solved, the stability is improved, and on the other hand, the number of the installation particles of the stirring beads 4-6 is increased, and the stirring beads 4-6 are enabled to penetrate into concrete to vibrate.

S4: on the basis of the steps, the screeding plates 462 can be arranged on the upper end surface and the lower end surface of the foam removing vibration rod 461 on the basis that the surface of the concrete is required to be screeded by ian or the surface of the concrete is defoamed, because the screeding plates 462 are square plates, the area of the end surfaces of the screeding plates is larger than that of the foam removing vibration rod 461, after the two screeding plates 462 are movably clamped, the surface of the concrete is defoamed and screeded, and the effect is better compared with the stirring beads 4-6.

Example two

Referring to fig. 1-5, the invention provides concrete vibrating equipment for cast-in-situ ballastless track bed construction, which structurally comprises a frame 1, a driving motor 2, an electric cabinet 3 and a layered vibrating structure 4, wherein the driving motor 2 is arranged on one horizontal side of the frame 1, the electric cabinet 3 is further arranged at the top end of the frame 1, the electric cabinet 3 is electrically connected with the driving motor 2, more than two layered vibrating structures 4 are arranged on the frame 1, and the two adjacent layered vibrating structures 4 are distributed at equal intervals;

the layered vibration structure 4 comprises a vibration motor 41, a resonance shaft 42, a connecting rod 43, a connection box 44, a second connecting rod 45 and a vibration head 46, wherein the vibration motor 41 is arranged on the frame 1, the connection box 44 is arranged on the connecting rod 43, the connection box 44 and the vibration motor 41 are mechanically connected through the resonance shaft 42, the second connecting rod 45 is arranged at the bottom end of the connection box 44, the vibration head 46 is arranged at the tail end of the second connecting rod 45, and the vibration motor 41 is electrically connected with the electric cabinet 3.

The second connecting rod 45 is formed by movably jogging a solid cylindrical rod a and a hollow outer wrapping rod b, and the outer wrapping rod b is of a hollow round structure with an incomplete section.

The vibrating head 46 includes the bubble removal vibratable 461, the trowel 462, the bubble removal vibratable 461 is equipped with two, installs the end at cylinder pole a and outsourcing pole b of second connecting rod 45 respectively, these two bubble removal vibratable 461 activity block, trowel 462 is all installed to the upper and lower both ends face of bubble removal vibratable 461, trowel 462 is square board, and the area of its terminal surface is greater than bubble removal vibratable 461, these two trowel 462 activity blocks, installs trowel 462 at the upper and lower both ends face of bubble removal vibratable 461, because trowel 462 is square board, and the area of its terminal surface is greater than bubble removal vibratable 461, after two trowel 462 activity blocks, carries out surface defoaming and trowel to concrete, relative stirring pearl 4-6, and the effect is better.

The foam removing vibration rod 461 is provided with an adaptor 4-1, a square frame 4-3, a balance rod 4-4, a shaking line 4-5 and stirring beads 4-6, the middle of the inside of the square frame 4-3 is hollow, the middle of the inside of the square frame 4-3 is divided into two parts by the balance rod 4-4, more than two stirring beads 4-6 are arranged in the two parts, the stirring beads 4-6 are uniformly distributed at equal intervals, the stirring beads 4-6 are respectively fixed on the inner wall of the square frame 4-3 and the balance rod 4-4 by the shaking line 4-5, the distance between two adjacent stirring beads 4-6 is equal, the adaptor 4-1 is arranged at the middle of the outer side end face of the square frame 4-3, the adaptor 4-1 and the square frame 4-3 are horizontally fixed, the adaptor 4-1 and the balance rod 4-4 are on the same axis, after the vibration motor 41 is electrified, the generated vibration is transmitted to the vibration structure 4 through the resonance shaft 42, the vibration is transmitted to the vibration structure 4, the shaking beads 4-6 are arranged in the vibration structure, and the vibration structure 4-6 are fully stamped along with the vibration of the vibration structure 4-3, and the vibration beads 4-6 are fully stamped along with the vibration of the vibration structure after the shaking line is arranged in the vibration structure, and the vibration beads 4-6 are fully hit down along with the vibration structure, and the vibration of the vibration structure.

The stirring beads 4-6 are fixed on the inner wall of the square frame 4-3 and the balance rod 4-4 after being penetrated by the shaking wire 4-5 from the middle, the contact positions of the stirring beads 4-6 and the shaking wire 4-5 are fixed by glue, and compared with the mode of horizontally fixing the stirring beads 4-6 by the shaking wires 4-5, the mode is suitable for losing viscosity of the glue of the stirring beads 4-6 and the shaking wire 4-5, the stirring beads 4-6 cannot be thrown out, workers are accidentally injured, or the stirring beads are embedded into concrete.

A linear groove 4-2 is formed in the horizontal line of the connector 4-1, the horizontal width of the linear groove 4-2 is smaller than that of the connector 4-1, and when the trowelling plate 462 and the defoaming vibration rod 461 are clamped, the linear groove 4-2 is arranged, so that the connection relation between the trowelling plate 462 and the defoaming vibration rod 461 is enhanced.

The position that second connecting rod 45 and linking box 44 are connected is equipped with operating system, operating system includes ring strip 431, lift post 432, linking piece 433 horizontal installation is inside linking box 44, linking piece 433 and linking box 44 inner wall horizontal fixation, the middle position of linking piece 433 is hollowed out and is formed the regulation mouth, be equipped with the ring strip 431 more than twice on the inner wall of the regulation mouth of linking piece 433, the distance between these ring strips 431 about equalizes, cooperate between lift post 432 and these ring strips 431, lift post 432 bottom and outsourcing pole b horizontal fixation, be equipped with the protrusion more than two circles on the lift post 432, lift post 432 and ring strip 431 adopt sliding fit, cylinder pole a and linking box 44 horizontal fixation, let the pole b and the last debubbling vibration stick 461 layering of circle pole a, the layering is too thick in disposable concrete that mixes, and the layer is not clear concrete is watered, improves.

On the basis of the first embodiment of the present invention,

s5: on the basis of the steps S1, S2 and S3, the lifting column 432 can be held by hand, the lifting column 432 is pulled downwards, namely the lifting column 432 gradually slides downwards in a slideway of the ring strip 431 to drive the outer wrapping rod b to gradually fall, the outer wrapping rod b and the foam removing vibration rod 461 on the cylindrical rod a are layered, the concrete is poured and mixed in one step in a layered manner according to the step S1, the layered concrete is vibrated, and the vibrating effect is improved.

While there have been shown and described what are at present considered to be fundamental principles of the invention, the main features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the foregoing embodiments, which are described in the foregoing description only illustrate the principles of the invention, but are capable of other embodiments and modifications without departing from the spirit or essential features thereof, and therefore the scope of the invention is defined by the appended claims and their equivalents, rather than by the foregoing description.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (1)

1. A concrete vibrating device for cast-in-situ ballastless track bed construction is characterized in that: the structure of the device comprises a frame (1), a driving motor (2), an electric cabinet (3) and layered vibrating structures (4), wherein the driving motor (2) is installed on one horizontal side of the frame (1), the electric cabinet (3) is further installed at the top end of the frame (1), the electric cabinet (3) is electrically connected with the driving motor (2), more than two layered vibrating structures (4) are installed on the frame (1), and the adjacent two layered vibrating structures (4) are distributed at equal intervals;

the layered vibration structure (4) comprises a vibration motor (41), a resonance shaft (42), a connecting rod (43), a connection box (44), a second connecting rod (45) and a vibration head (46), wherein the vibration motor (41) is arranged on a frame (1), the connection box (44) is arranged on the connecting rod (43), the connection box (44) and the vibration motor (41) are mechanically connected through the resonance shaft (42), the second connecting rod (45) is arranged at the bottom end of the connection box (44), the vibration head (46) is arranged at the tail end of the second connecting rod (45), and the vibration motor (41) is electrically connected with an electric cabinet (3);

the second connecting rod (45) is formed by movably jogging a solid cylindrical rod (a) and a hollow outer wrapping rod (b), and the outer wrapping rod (b) is of a hollow round structure with an incomplete section;

the vibrating head (46) comprises foam removing vibrating rods (461) and screeds (462), the two foam removing vibrating rods (461) are arranged at the tail ends of a cylindrical rod (a) and an outer wrapping rod (b) of the second connecting rod (45) respectively, the two foam removing vibrating rods (461) are movably clamped, screeds (462) are arranged on the upper end face and the lower end face of each foam removing vibrating rod (461), the screeds (462) are square plates, the area of the end faces of each screeds is larger than that of each foam removing vibrating rod (461), and the two screeds (462) are movably clamped;

the foam removing vibrating rod (461) is provided with an adapter (4-1), a square frame (4-3), a balance rod (4-4), a shaking line (4-5) and stirring beads (4-6), the center of the square frame (4-3) is hollow, the center of the square frame (4-3) is divided into two parts by the balance rod (4-4), more than two stirring beads (4-6) are arranged in the two parts, the stirring beads (4-6) are uniformly distributed at equal intervals, the stirring beads (4-6) are respectively fixed on the inner wall of the square frame (4-3) and the balance rod (4-4) by the shaking line (4-5), the distance between every two adjacent stirring beads (4-6) is equal, and the adapter (4-1) is arranged in the center of the outer end face of the square frame (4-3);

the stirring beads (4-6) are penetrated by a shaking wire (4-5) from the middle and then fixed on the inner wall of the square frame (4-3) and the balance rod (4-4), and the contact positions of the stirring beads (4-6) and the shaking wire (4-5) are fixed by glue;

a linear groove (4-2) is formed in the horizontal line of the adapter (4-1), and the horizontal width of the linear groove (4-2) is smaller than that of the adapter (4-1);

the position that second connecting rod (45) and linking box (44) are connected is equipped with operating system, operating system includes round bar (431), lifting column (432), linking piece (433) horizontal mounting is inside linking box (44), linking piece (433) and linking box (44) inner wall horizontal fixation, the positive meta position of linking piece (433) is hollowed out and is formed the regulation mouth, be equipped with round bar (431) more than two on the inner wall of the regulation mouth of linking piece (433), the distance between these round bar (431) from top to bottom equals, mutually support between lifting column (432) and these round bar (431), lifting column (432) bottom and outsourcing pole (b) horizontal fixation, be equipped with the protrusion more than two circles on lifting column (432), lifting column (432) and round bar (431) adopt sliding fit, cylinder pole (a) and linking box (44) horizontal fixation.

Images