CN219793652U - Small-size material distributing vehicle that pushes away - Google Patents

Abstract

The utility model discloses a small pushing and distributing vehicle which comprises a charging bucket main body, a bearing support system and rolling tires, wherein the charging bucket main body is in supporting connection through the bearing support system, four rolling tires are arranged on the periphery of the bottom of the bearing support system in a rectangular distribution mode, the rolling tires are detachably connected with the bearing support system, concrete is poured into the charging bucket main body, an arc-shaped discharging opening is formed in the bottom of the charging bucket main body, and an arc-shaped rotary hanging plate which is in fit with the arc-shaped discharging opening is further arranged on the charging bucket main body and rotates along the arc-shaped surface of the arc-shaped discharging opening to control the opening size of the discharging opening. The utility model has the advantages of convenient construction, rapidness, convenience, no disturbance to poured concrete in the pouring process, guaranteed construction quality, high economy and high construction operation safety.

Description

Small-size material distributing vehicle that pushes away

Technical Field

The utility model relates to the field of concrete pouring construction in civil engineering. More particularly, the present utility model relates to a compact push cloth vehicle.

Background

In the construction of the upper structure of the modern bridge, most of the construction mainly uses precast beam plates, and wet joints and cast-in-situ diaphragm plates are required to be constructed in time after the precast beam plates are installed and erected. According to the prior construction process, a concrete tank truck is generally used for directly running to a to-be-poured area to perform discharging pouring, and a pump truck can be selected for pouring under a conditional condition. The following technical problems generally exist:

1. when the concrete tank truck directly runs to the to-be-poured area to perform discharging pouring, the poured beam body can be greatly disturbed in the running process of the concrete tank truck, and the connection quality between the poured concrete and the precast beam slab is greatly affected.

2. When the bridge deck is directly poured on the concrete tank truck, the wet joint is easily collapsed and the templates of the diaphragm plates are easily touched in the running process of the tank truck, and meanwhile, the concrete is easily scattered on the bridge deck in the pouring process, so that the bridge deck is polluted.

3. When the automobile pump is used for pouring, the problems that mortar is needed for pipe wetting and construction cost is high and the like exist in each pouring.

In order to solve the construction problem, the utility model provides a small pushing material distributing vehicle.

Disclosure of Invention

The utility model aims to provide a small pushing material distributing vehicle, which has the advantages of convenience in construction, rapidness and convenience, no disturbance to poured concrete in the pouring process, guarantee of construction quality and high economical efficiency and construction operation safety.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided a compact pushing and distributing vehicle, comprising a charging bucket main body, a bearing support system and rolling tires, wherein the charging bucket main body is supported and connected by the bearing support system, four rolling tires are arranged around the bottom of the bearing support system in rectangular distribution, the rolling tires and the bearing support system are arranged to be detachably connected, concrete is poured into the charging bucket main body, the bottom of the charging bucket main body is provided with an arc-shaped discharge opening, and an arc-shaped rotary hanging plate which is fit with the arc-shaped discharge opening is further arranged on the charging bucket main body and rotates along the arc surface of the arc-shaped discharge opening to control the opening size of the discharge opening.

Preferably, the bearing support system is a frame-type U-shaped structure formed by combining a plurality of frame beams, the top of the charging bucket main body is fixedly connected to the top of the bearing support system, and the charging bucket main body is positioned in the bearing support system.

Preferably, the center of the rolling tire is provided with a fixed rotating shaft, the bottom frame beam of the bearing and supporting system is correspondingly provided with a matching hole, the rolling tire is rotatably inserted into the matching hole through the fixed rotating shaft for installation, and after the rolling tire is installed, the end part of the fixed rotating shaft protrudes out of the matching hole and is clamped with a limiting block.

Preferably, a pair of connecting plates are arranged on two opposite sides of the rotary hanging plate perpendicular to the rotation direction of the rotary hanging plate, the connecting plates are arranged outwards and obliquely upwards to match the inclined cambered surface of the lower part of the charging bucket main body, an L-shaped mounting plate is arranged on the side surface of the charging bucket main body, and the top of each connecting plate is rotationally connected with the corresponding mounting plate through a pin shaft.

Preferably, the rotation hanger plate rotates at one side middle part of its direction of rotation and connects curved first hinge ear, its indent cambered surface orientation the setting of material jar main part, with first hinge ear is adjacent the fixed second hinge ear that is provided with in bearing support system bottom frame roof beam middle part, it keeps away from the setting of material jar main part tilt up, still be provided with between first hinge ear and the second hinge ear and rotate the handle, it is T-like, rotate the handle horizontal both ends respectively rotate and be connected to first hinge ear and second hinge ear, rotate the handle other end upwards extend and do not with material jar main part lateral wall looks interference.

Preferably, a plurality of lifting lugs are arranged on the charging bucket main body at intervals along the circumferential direction of the charging bucket main body.

The utility model at least comprises the following beneficial effects:

(1) The material distributing vehicle adopts block assembly, and can be used as a common hopper by detaching the rolling tire.

(2) After the rolling tires are installed, the material distributing vehicle can be manually and easily pushed to the to-be-poured area to be discharged, so that the interference of large concrete conveying equipment on the construction quality of poured concrete is avoided.

(3) The rotary hanging plate of the material distributing vehicle is connected with the rotary handle through the two rotary hinge lugs, and the rotary mechanism is labor-saving and is suitable for manual operation.

(4) According to the material distributing vehicle, the size of the concrete pouring surface is adjusted by rotating the opening and closing angle of the hanging plate, so that accurate discharging is realized, and the defect of material scattering is avoided.

(5) According to the utility model, the material distribution is carried out by pushing the material distribution vehicle, so that the interference of large concrete to the section template to be poured and the steel bars is avoided.

(6) The small pushing material distributing vehicle is simple in structure and wide in application range, and can be disassembled and assembled according to different construction operation contents.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a pushing cloth cart;

FIG. 2 is a schematic side view of a push-on cloth cart;

FIG. 3 is a schematic side view of the pushing cloth carriage in a closed state;

FIG. 4 is a schematic side view of the pushing cloth carriage in a discharging state;

FIG. 5 is a schematic diagram showing the structure of a pushing and distributing vehicle split into hoppers;

FIG. 6 is a schematic view of the structure of a rotating hanger plate;

FIG. 7 is a schematic view of the structure of two hinge eyes;

fig. 8 is a schematic structural view of the rolling tire.

Reference numerals illustrate:

1. the tire rolling machine comprises a rolling tire, 11, a fixed rotating shaft, 12, a limiting block, 2, a bearing support system, 3, a charging bucket main body, 31, a rotating handle, 32, lifting lugs, 33, connecting plates, 34, a rotating hanging plate, 35, first hinge lugs, 36, second hinge lugs, 37 and a mounting plate.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It should be noted that the experimental methods described in the following embodiments, unless otherwise specified, are all conventional methods, and the reagents and materials, unless otherwise specified, are all commercially available; in the description of the present utility model, the terms "transverse", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1 and 2, the utility model provides a small pushing and distributing vehicle, which comprises a charging bucket main body 3, a bearing support system 2 and rolling tires 1, wherein the charging bucket main body 3 is in supporting connection through the bearing support system 2, four rolling tires 1 are arranged on the periphery of the bottom of the bearing support system 2 in a rectangular distribution, the rolling tires 1 are in detachable connection with the bearing support system 2, concrete is poured into the charging bucket main body 3, an arc-shaped discharge opening is arranged at the bottom of the charging bucket main body 3, and an arc-shaped rotary hanging plate 34 which is in fit with the arc-shaped discharge opening is further arranged on the charging bucket main body 3 and rotates along the arc surface of the arc-shaped discharge opening to control the opening size of the discharge opening.

In the technical scheme, the small pushing and distributing vehicle is divided into three parts: the charging bucket main body 3, the bearing support system 2 and the rolling tire 1, the charging bucket main body 3 is connected with the rolling tire 1 through the bearing support system 2, the rolling tire 1 is installed on the side face of the bearing support system 2, construction operators can easily push the charging bucket main body 3 to a to-be-poured area through the rolling tire 1 to discharge materials, and the charging bucket main body can be manually pushed or a small-sized engine is refitted on the bearing support system 2 in the actual construction process, so that the self-rolling walking of the material distribution vehicle is realized. The rolling tires 1 and the bearing support system 2 are connected in a detachable mode, namely the material distribution vehicle is assembled in a blocking mode, and the rolling tires 1 can be used as a common hopper after being detached. The concrete in the bucket main body 3 can be discharged through manually rotating the arc-shaped rotating hanging plate 34, and the discharging range and speed are controlled through the rotating angle and speed of the rotating hanging plate 34. The discharge opening and the rotary hanging plate 34 are arranged in a matched arc shape to adapt to arc rotation, the rotary hanging plate 34 is arranged as a whole, and the structure is simple and the operation and control are easy. The device can be manually and easily pushed to the area to be poured, and the lifting plate 34 is rotated to open and close by rotating the handle 31 to discharge.

In another technical scheme, the bearing support system 2 is of a frame-type U-shaped structure formed by combining a plurality of frame beams, the top of the charging bucket main body 3 is fixedly connected to the top of the bearing support system 2, and the charging bucket main body 3 is located inside the bearing support system 2. The load bearing support system 2 is integrally formed by combining eight frame beams.

In another technical scheme, as shown in fig. 8, the center of the rolling tire 1 is provided with a fixed rotating shaft 11, a matching hole is correspondingly formed in a bottom frame beam of the bearing support system 2, the rolling tire 1 is rotatably inserted into the matching hole through the fixed rotating shaft 11 for installation, and after the rolling tire 1 is installed, the end part of the fixed rotating shaft 11 protrudes out of the matching hole and is clamped with a limiting block 12.

In the above technical solution, the rolling tire 1 is provided with the fixed rotating shaft 11, and the rolling tire 1 is easily inserted into or pulled out of the corresponding frame beam matching hole through the fixed rotating shaft 11, and as shown in fig. 1 and 5, the rolling tire 1 is respectively installed and disassembled in a schematic structural view. After the fixed rotating shaft 11 is inserted, the rotation limit of the fixed rotating shaft 11 is realized by clamping a limiting block 12 at the end part, so that the rolling tire 1 is prevented from being separated from the bearing support system 2 in the rolling process. The limiting block 12 is annular with a through hole in the center, the through hole is just matched with the fixed rotating shaft 11, and a rubber layer is fixedly arranged on the wall of the through hole, so that the fixed rotating shaft 11 can be clamped, and the fixed rotating shaft 11 can be conveniently detached from the fixed rotating shaft 11.

In another technical solution, as shown in fig. 1 and 6, a pair of connection plates 33 are provided on opposite sides of the rotation hanger plate 34 perpendicular to the rotation direction thereof, and are disposed to incline outwards and upwards to match the inclined cambered surface of the lower portion of the bucket main body 3, an L-shaped mounting plate 37 is provided on the side surface of the bucket main body 3, and the top of the connection plate 33 is rotatably connected with the corresponding mounting plate 37 through a pin shaft.

In the above technical scheme, the rotation hanger plate 34 and the pair of connection plates 33 are formed into an integral U-shaped structure and are just sleeved at the bottom of the bucket main body 3, and the connection plates 33 are also provided with reinforcing plates to increase structural strength. A mounting plate 37 is arranged at a position corresponding to the charging bucket main body 3 and is used for being connected with the connecting plate 33 in a rotating way through a pin shaft.

In another technical scheme, as shown in fig. 3, fig. 4 and fig. 7, the rotating hanger plate 34 is rotatably connected with an arc-shaped first hinge lug 35 at the middle part of one side of the rotating direction of the rotating hanger plate, the concave cambered surface of the rotating hanger plate faces the bucket main body 3, a second hinge lug 36 is fixedly arranged at the middle part of a frame beam at the bottom of the bearing support system 2 adjacent to the first hinge lug 35, the second hinge lug 36 is obliquely arranged upwards and far away from the bucket main body 3, a rotating handle 31 is further arranged between the first hinge lug 35 and the second hinge lug 36, the rotating handle is in a T-like shape, two transverse ends of the rotating handle 31 are respectively rotatably connected to the first hinge lug 35 and the second hinge lug 36, and the other end of the rotating handle 31 extends upwards and does not interfere with the outer side wall of the bucket main body 3.

In the above-described technical solution, the rotary hanger plate 34 is connected to the rotary handle 31 by two rotary hinge lugs, and the rotary handle 31 is hinged to the first hinge lug 35 and the second hinge lug 36. The first hinge lug 35 is hinged with the rotary hanging plate 34, and the rotary mechanism is labor-saving, suitable for manual operation, simple, convenient and easy to use. The upper portion of the charging bucket main body 3 is cylindrical, and the bottom is conical, because the second hinge lug 36 is arranged obliquely outwards to be convenient for connecting the rotary handle 31, the lower end of the vertical rod portion of the rotary handle 31 is close to the second hinge lug 36, and the upper end is arranged obliquely outwards to not interfere with the outer side wall of the upper portion of the charging bucket main body 3. The height of the rotary handle 31 is set to be extended to a position convenient for the human hand to operate, so that the manual bending operation is avoided as much as possible. Through manual rotation operation rotation handle 31, rotation handle 31 rotates around second hinge lug 36 to drive first hinge lug 35 and rotate, thereby realize rotating hanger plate 34 and rotate around the material jar main part 3 lateral wall, realize rotating the switching.

In another technical scheme, a plurality of lifting lugs 32 are arranged on the charging bucket main body 3 at intervals along the circumferential direction. The bucket main body 3 can be independently assembled with the bearing support system 2 to form a hopper structure, and four lifting lugs 32 are arranged at the top of the bucket main body 3, so that the hoisting construction operation of concrete can be independently carried out.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (6)

1. The utility model provides a small-size cloth car that pushes away, its characterized in that, includes material tank main part, bearing support system and rolling tire, the material tank main part is through bearing support system support connection, the bearing support system bottom is the rectangle distribution all around and is provided with four rolling tire, rolling tire with set up to dismantle between the bearing support system and be connected, fill concrete in the material tank main part, material tank main part bottom sets up to the arc discharge opening, still be provided with in the material tank main part with an arc rotation hanger plate of arc discharge opening laminating complex, its arcwall face rotation in order to control the opening size of discharge opening along the arc discharge opening.

2. The compact pushing and distributing vehicle of claim 1, wherein the load bearing support system is a frame-type U-shaped structure formed by combining a plurality of frame beams, the top of the main tank body is fixedly connected to the top of the load bearing support system, and the main tank body is positioned inside the load bearing support system.

3. The small pushing and distributing vehicle as set forth in claim 2, wherein the rolling tire has a fixed shaft in the center, the bottom frame beam of the bearing support system has corresponding matching holes, the rolling tire is inserted into the matching holes for installation through the rotation of the fixed shaft, and after the installation of the rolling tire, the end of the fixed shaft protrudes out of the matching holes and is clamped with a limiting block.

4. The small-sized pushing and distributing vehicle according to claim 2, wherein a pair of connecting plates are arranged on two opposite sides of the rotary hanging plate perpendicular to the rotation direction of the rotary hanging plate, the connecting plates are arranged outwards and upwards in an inclined manner to match with the inclined cambered surface of the lower part of the charging bucket main body, an L-shaped mounting plate is arranged on the side surface of the charging bucket main body, and the top of each connecting plate is rotationally connected with the corresponding mounting plate through a pin shaft.

5. The small-sized pushing and distributing vehicle according to claim 4, wherein the rotating hanging plate is rotatably connected with the arc-shaped first hinge lug at the middle part of one side of the rotating direction of the rotating hanging plate, the concave cambered surface of the rotating hanging plate faces the charging bucket main body, the middle part of the frame beam at the bottom of the bearing and supporting system adjacent to the first hinge lug is fixedly provided with the second hinge lug which is upwards inclined away from the charging bucket main body, a rotating handle which is similar to a T shape is further arranged between the first hinge lug and the second hinge lug, the transverse two ends of the rotating handle are respectively rotatably connected to the first hinge lug and the second hinge lug, and the other end of the rotating handle extends upwards and does not interfere with the outer side wall of the charging bucket main body.

6. The compact pushing and distributing vehicle of claim 1, wherein the bucket body is provided with a plurality of lifting lugs circumferentially spaced apart.