CN211541715U - Concrete prefabricated part distributing device and system - Google Patents

Abstract

The utility model relates to a precast concrete component distributing device and system. The distributing system of the concrete prefabricated part comprises a distributing device and a controller, wherein the distributing device comprises a receiving hopper for receiving concrete; a material distribution bin; the cloth mold is detachably arranged in the cloth bin; the strickle device is controlled by the controller and is used for strickleing off and filling the concrete in the distribution bin into the distribution mould; a distribution door controlled by the controller is operable to open the distribution opening to discharge concrete in the distribution mold into the prefabricated component mold. The utility model provides a concrete prefabricated component distributing device and system scrapes through the concrete of strickleing off the device in with the cloth storehouse and fills to the cloth mould for the concrete possesses certain shape and by the ration because of the effect of cloth mould, so fill the shape and the volume of the concrete in the prefabricated component mould and fixed get off, therefore the cloth is even, prefabricated component finished product stable in quality, and reduced artifical manual operation volume, improved work efficiency.

Description

Concrete prefabricated part distributing device and system

Technical Field

The utility model relates to a building engineering machine tool technical field especially relates to a concrete prefabricated component distributing device and system.

Background

Compared with cast-in-place concrete members, the existing concrete prefabricated members have the advantages of resource and energy conservation, high production efficiency, low requirements on construction site environmental conditions, low noise and dust pollution and the like, and are widely applied.

The concrete prefabricated part is usually prepared by distributing and pouring the prefabricated part mould on the moulding bed by a distributing machine, the position of a distributing hopper is adjusted by combining a longitudinal and transverse travelling mechanism of the existing distributing machine, and a discharging door at a discharging opening is controlled to be opened or closed in a pneumatic control mode so as to pour at the corresponding prefabricated part mould to form the concrete prefabricated part.

However, the existing distributing machine mainly depends on manual operation, and the problems of uneven distribution and low working efficiency exist.

SUMMERY OF THE UTILITY MODEL

On the basis, the distribution device and the distribution system for the concrete prefabricated parts are necessary to solve the problems that the existing distribution machine mainly depends on manual operation, the working efficiency is low, and the distribution is uneven and stable.

A distribution system of a concrete prefabricated part is used for distributing materials into a prefabricated part mould and comprises a distribution device and a controller; the distributing device comprises: the receiving hopper is provided with a receiving port and a discharge port, and the receiving port is used for receiving concrete; the material distribution bin is provided with a feeding hole and a material distribution opening, and the feeding hole can be connected with the discharging hole; the material distribution die is detachably arranged in the material distribution bin; the strickle device is arranged in the material distribution bin and is electrically connected with the controller, and the controller is used for controlling the strickle device to strickle and fill the concrete in the material distribution bin into the material distribution mould; the material distribution door is arranged at the material distribution opening and is electrically connected with the controller; the controller is used for controlling the material distribution door to be in a closed state covering the bottom of the material distribution mold, or opening the material distribution port to discharge concrete in the material distribution mold to a material distribution state in the prefabricated part mold.

Above-mentioned precast concrete component cloth system, through strickle the device with the interior concrete strickle of cloth storehouse fill to the cloth mould in for the concrete possesses certain shape and by the ration because of the effect of cloth mould, so fill the shape and the volume of the concrete in the precast concrete component mould and fixed, consequently the cloth is even, precast concrete component finished product stable in quality, and reduced artifical manual operation volume, improved work efficiency.

In one embodiment, the distributing device further comprises a residue bin, and the residue bin is located on one side of the distributing bin along the scraping direction of the scraping device and is connected with the distributing bin.

In one embodiment, the distributing device further comprises a surplus material returning device, and the surplus material returning device is respectively connected with the surplus material bin and the receiving hopper; the excess material returning device is electrically connected with the controller, and the controller controls the excess material returning device to transport the concrete in the excess material bin to the receiving hopper.

In one embodiment, the material distribution device further comprises a vibration device, and the vibration device is connected with the material distribution mold; the vibration device is electrically connected with the controller, and the controller controls the vibration device to drive the cloth mold to vibrate.

In one embodiment, the material distribution device further comprises a stirring device and a blanking door, the stirring device is positioned inside the material receiving bin, and the blanking door is arranged at the discharging port; the stirring device is electrically connected with the controller, and the controller is used for controlling the stirring device to stir the concrete in the receiving hopper; the blanking door is electrically connected with the controller, and the controller is used for controlling the blanking door to be opened so that the concrete in the material receiving hopper falls into the material distribution bin.

In one embodiment, the material distribution device further comprises a flushing device, and the flushing device is arranged in the material distribution bin; the flushing device is electrically connected with the controller, and the controller controls the flushing device to flush the interior of the material distribution bin.

In one embodiment, the material distribution system further comprises a travelling mechanism, and the material distribution device is mounted on the travelling mechanism; the traveling mechanism is electrically connected with the controller, and the controller controls the traveling mechanism to drive the distributing device to move.

In one embodiment, the shape of the inner cavity of the cloth mold is the same as the shape of the inner cavity of the preform mold.

In one embodiment, the material distribution system further comprises an operation table, the operation table comprises an operation panel, and the operation panel is electrically connected with the controller

A distributing device for a concrete prefabricated part is used for distributing materials into a prefabricated part mould and comprises a receiving hopper, a distributing device and a distributing device, wherein the receiving hopper is provided with a receiving port and a discharging port, and the receiving port is used for receiving concrete; the material distribution bin is provided with a feeding hole and a material distribution opening, and the feeding hole can be connected with the discharging hole; the material distribution die is detachably arranged in the material distribution bin; the strickle device is arranged in the material distribution bin and is used for strickleing and filling the concrete in the material distribution bin into the material distribution mould; the material distribution door is arranged at the material distribution opening; the distribution door is operable to be in a closed state covering the distribution mold, or to open the distribution port to discharge concrete in the distribution mold to a distribution state in the prefabricated member mold.

Drawings

Fig. 1 is a schematic structural view of a conventional distributing machine;

fig. 2 is a schematic structural view from another perspective of the distributing machine shown in fig. 1;

fig. 3 is a schematic structural view from yet another perspective of the distributor shown in fig. 1;

FIG. 4 is a schematic structural diagram of a die table provided with a prefabricated part die and corresponding to a conventional distributing machine;

fig. 5 is a schematic structural view of a distributing device for concrete prefabricated parts according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a mold table, on which a prefabricated part mold is installed, corresponding to the prefabricated part material distribution device in an embodiment of the present invention;

fig. 7 is a schematic structural view of a material distribution mold of a material distribution device for a concrete prefabricated part according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of another perspective of the concrete precast element distributing device shown in FIG. 5;

fig. 9 is a structural view of another view of the apparatus for distributing concrete precast elements shown in fig. 5.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present, unless otherwise specified. It will also be understood that when an element is referred to as being "between" two elements, it can be the only one between the two elements, or one or more intervening elements may also be present.

Where the terms "comprising," "having," and "including" are used herein, another element may be added unless an explicit limitation is used, such as "only," "consisting of … …," etc. Unless mentioned to the contrary, terms in the singular may include the plural and are not to be construed as being one in number.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of the present invention.

It will also be understood that when interpreting elements, although not explicitly described, the elements are to be interpreted as including a range of errors which are within the acceptable range of deviation of the particular values as determined by those skilled in the art. For example, "about," "approximately," or "substantially" may mean within one or more standard deviations, without limitation.

Furthermore, the drawings are not 1: 1, and the relative dimensions of the various elements in the figures are drawn for illustration only and not necessarily to true scale.

In order to facilitate understanding of the technical solution of the present invention, before the detailed description, the present concrete prefabricated component material distributing machine is described first.

Fig. 1 to 3 show a structural schematic diagram of a conventional distributor for concrete prefabricated parts.

The distributing machine 1 comprises a distributing hopper 2, a distributing screw shaft 3 arranged in the distributing hopper 2, a plurality of pneumatic control valves 5 arranged at a distributing opening 4 of the distributing hopper 2, a traveling mechanism 6 for driving the distributing machine 1 to move and an operating platform 7. As shown in fig. 4, a plurality of prefabricated part molds 8 are fixed on a mold table 9.

When concrete enters the distributing hopper 2, caking is prevented through the stirring effect of the distributing screw shaft 3, the operating table 7 is manually operated, the travelling mechanism 6 is driven to move the distributing machine 1 to a first preset position above the prefabricated part mould 8, the corresponding valve 5 is controlled to be opened or closed through the operating table 7 so as to control the amount of discharged concrete, then the travelling mechanism 6 is driven to move the distributing machine 1 to a second preset position above the prefabricated part mould 8, and the operation is repeated until the prefabricated part mould 8 is filled.

Present cloth machine needs artifical manual movement cloth machine 1 when the cloth to make valve 5 correspond prefabricated component mould 8's a plurality of positions, and need the volume of manual control discharge concrete, so there is the inhomogeneous condition of cloth, causes the unable stability of prefabricated component finished product quality, in addition, artifical manual operation's mode also leads to work efficiency to reduce, the problem that the cost of labor is high.

Therefore, it is desirable to provide a concrete prefabricated part material distribution device, system and method with uniform material distribution and high efficiency.

Fig. 5 is a schematic structural diagram of a distributing device for concrete prefabricated parts according to an embodiment of the present invention; for the purpose of illustration, the drawings show only the structures associated with embodiments of the invention.

Referring to fig. 5, the distribution device 100 for concrete prefabricated parts according to an embodiment of the present invention is used for distributing materials into a prefabricated part mold 200 (see fig. 6), and the distribution device 100 includes a receiving hopper 10, a distribution bin 20, a distribution mold 30, a strickle device 40 and a distribution door 50.

Connect hopper 10 to have and connect material mouth 11 and discharge gate 12, connect material mouth 11 to be used for receiving the concrete, distribution storehouse 20 has feed inlet 21 and distribution mouth 22, and feed inlet 21 can link to each other with discharge gate 12, and distribution mould 30 detachably installs in distribution storehouse 20, and strickle off device 40 and install in distribution storehouse 20 for strickle off the concrete in distribution storehouse 20 and fill to distribution mould 30 in.

The distribution door 50 is provided at the distribution port 22, and the distribution door 50 is operable in a closed state covering the bottom of the distribution mold 20, or opens the distribution port 22 to discharge the concrete in the distribution mold 30 to a distribution state in the prefabricated part mold 200.

It will be appreciated that the distribution door 50, when in the closed position, may act as a floor for the distribution mould 30, allowing concrete to be filled into the distribution mould 30.

By providing the distribution mold 30 in the distribution bin 20, the concrete in the distribution bin 20 is filled into the distribution mold 30 by scraping with the scraping device 40, and at this time, the concrete has a certain shape and is fixed in quantity by the action of the distribution mold 30, so that the amount and shape of the concrete filled into the prefabricated member mold 200 are fixed after the distribution door 50 is opened to discharge the concrete in the distribution mold 30. Therefore, the utility model discloses a 100 cloth of distributing device are even, and prefabricated component finished product stable in quality, and have reduced artifical manually operation volume for work efficiency improves and the cost of labor reduces.

The utility model discloses a cloth mould 30 detachably among distributing device 100 installs in cloth storehouse 20, so can change corresponding cloth mould 30 to prefabricated component's different specifications, change simply and conveniently.

As shown in fig. 6 and 7, in some embodiments, the shape of the inner cavity of the cloth mold 30 is the same as that of the preform mold 200. Therefore, the production efficiency of the finished prefabricated part can be improved, and the quality of the finished prefabricated part is stable and reliable.

Referring to fig. 5 again, in some embodiments, the distributing device 100 further includes a stirring device 55 and a dropping door 60, the stirring device 55 is disposed inside the receiving hopper 10, the dropping door 60 is disposed at the discharging port 12, the stirring device 55 is used for stirring the concrete in the receiving hopper 10, and the dropping door 60 is used for dropping the concrete in the receiving hopper 10 into the distributing bin 20. Before distributing, the blanking door 60 can be closed first, so that concrete is fully stirred in the receiving hopper 10 to prevent agglomeration, so as to distribute the concrete to the distributing bin 20 at any time, and the blanking door 60 can also be closed to control the amount of the concrete falling into the distributing bin 20, so as to prevent the situation that the scraping device 40 cannot work due to excessive concrete in the distributing bin 20.

Specifically, the stirring device 55 includes a stirring shaft and a first driving device, and the first driving device drives the stirring shaft to rotate so as to stir the concrete in the receiving hopper 10.

The material receiving hopper 10 is of an inverted quadrangular pyramid shape, the material distribution bin 20 is located below the material receiving hopper 10 in the vertical direction, and the material distribution bin 20 is of a cuboid shape. Cloth mould 30 transversely places in the one end that cloth storehouse 20 is close to cloth material mouth 22, scrapes device 40 including scraping flitch and second drive arrangement, scrapes the flitch and spanes cloth mould 30 upper surface setting, and the second drive arrangement drive is scraped the flitch and is followed the scraper direction and remove, scrapes the material direction and scrape flitch lengthwise direction perpendicular, and the second drive arrangement drive is scraped the flitch and is strickleed off the concrete in to cloth storehouse 20 and fill to cloth mould 30 in.

In some embodiments, the material distribution device 100 further includes a residue bin 65, and the residue bin 65 is located at one side of the material distribution bin 20 along the scraping direction of the scraping device 50 and connected to the material distribution bin 20. In this way, the residual concrete in the material distribution bin 20 after the material filling mold 30 is scraped by the scraping device 40 can be collected by the residual material bin 65.

Further, the distributing device 100 further comprises a surplus material returning device 70, the surplus material returning device 70 is respectively connected with the surplus material bin 65 and the receiving hopper 10, and the surplus material returning device 70 is used for transporting concrete in the surplus material bin 65 to the receiving hopper 10. Therefore, the concrete can be recycled, and the cost is saved. Specifically, the remainder returning device 70 includes a housing, a conveyor belt, and a third driving device, and the concrete in the remainder bin 65 is conveyed into the receiving hopper 10 through the conveyor belt.

In some embodiments, the material distribution device 100 further comprises a vibration device 75, the vibration device 75 is connected to the material mold 30, and the vibration device 75 is used for driving the material mold 30 to vibrate. So, after opening cloth door 50, use vibrating device 75 vibratable cloth mould 30, make the smooth discharge of the concrete in the cloth mould 30, prevent that the concrete from remaining in cloth mould 30, and then influence cloth stability.

Specifically, the vibration means 75 may include a plurality of vibration members disposed around the outer circumference of the cloth mold 30.

In some embodiments, the material distribution device 100 further comprises a flushing device, which is installed in the material distribution bin 20 and is used for flushing the material distribution bin 20. After the distribution is finished, the distribution bin 20 can be washed by operating the washing device, and the scraping device 40, the distribution mould 30 and the like cannot be normally used due to the fact that concrete blocks are placed. In particular, the flushing device may comprise a plurality of flushing members, which are circumferentially arranged along the inner wall of the material bin 20.

Referring to fig. 6 again, the prefabricated part mold 200 is usually placed on the mold base 300, and in order to adapt to the position of the prefabricated part mold 200, as shown in fig. 8, in some embodiments, the material distribution device 100 may be mounted on the traveling mechanism 80, and the traveling mechanism 80 is operated to drive the material distribution device 100 to move to the position corresponding to the prefabricated part mold 200. Further, the traveling mechanism 80 may include a transverse traveling mechanism 81 and/or a longitudinal traveling mechanism 82, and in other embodiments, the traveling mechanism 80 may include a traveling mechanism in any direction, which is not limited herein. Specifically, the longitudinal traveling mechanism 82 may include a longitudinal traveling guide rail on which the distributing device 100 is movable via traveling wheels, the lateral traveling mechanism 81 includes a longitudinal and lateral traveling guide rail on which the longitudinal traveling mechanism 82 is movable via traveling wheels. More specifically, the longitudinal running rail and the transverse running rail each include two running rails arranged in parallel.

Based on same utility model design, the utility model discloses still provide a concrete prefabricated component cloth system, including distributing device 100 and controller.

The structure of the material distribution device 100 is the same as that of the material distribution device 100, and is not described herein again.

The controller is electrically connected with the strickle device 40 and is used for controlling the strickle device 40 to strickle and fill the concrete in the distribution bin 20 into the distribution mould 30.

The controller is electrically connected to the distribution gate 50, and controls the distribution gate 50 to be in a closed state covering the bottom of the distribution mold 30, or opens the distribution port 22 to discharge the concrete in the distribution mold 30 to the distribution state in the prefabricated part mold 200.

The strickle device 40 and the distributing door 50 are controlled by the controller, so that the distributing operation of the distributing device 100 is simple, the working strength of personnel is reduced, the labor cost is saved, and the working efficiency is improved.

In some embodiments, a controller is electrically connected to the stirring device 55, the controller being configured to control the stirring device 55 to stir the concrete in the receiving hopper 10.

In some embodiments, the controller is electrically connected to the traveling mechanism 80, and the controller is configured to control the traveling mechanism 80 to move the material distribution device 100.

As shown in fig. 9, in some embodiments, to facilitate the operation of the staff, the concrete prefabricated part distribution system further includes an operation table 90, and the operation table 90 includes an operation panel electrically connected to the controller. The operator operates the operation panel and controls the material distribution device 100 to distribute the material.

Based on above-mentioned precast concrete component cloth system, the utility model also provides a precast concrete component cloth method, including the step:

s110: receiving concrete by using a receiving port 11 of a receiving hopper 10;

in some embodiments, before step S110, step S105 is further included: the controller controls the traveling mechanism 80 to drive the distributing device 100 to move to the material receiving position.

S120: the controller controls the strickle device 40 to strickle and fill the concrete in the distribution bin 20 into the distribution mould 30;

the strickling device 40 includes a scraping plate and a second driving device, the second driving device is electrically connected to the controller, and the controller controls the second driving device to drive the scraping plate to strickle and fill the concrete in the distribution bin 20 into the distribution mold 30.

In some embodiments, the surplus bin 65 can be used for collecting the concrete left in the distribution bin 20 after the filling material mold 30 is scraped and filled by the scraping device 40, and the concrete in the surplus bin 65 can be transported to the receiving hopper 10 by the surplus returning device 70.

In some embodiments, before step S120, step S115 is further included: the controller controls the traveling mechanism 80 to drive the material distribution device 100 to move to the material distribution position. It should be understood that the cloth position should correspond to the preform mold position.

In some embodiments, before the step S120, the method further includes a step S116: controlling the stirring device 55 to stir the concrete in the receiving hopper 10;

wherein, agitating unit 20 includes (mixing) shaft and first drive arrangement, and first drive arrangement is connected with the controller electricity.

Further, the method further includes step S118: the controller controls the blanking door 60 to open the discharge hole 11 of the receiving hopper 10, so that the concrete in the receiving hopper 10 falls into the distribution bin 20.

S130: the controller controls the distribution door 50 to open the distribution port 22 to discharge the concrete in the distribution mold 30 into the prefabricated part mold 200.

In some embodiments, the controller may control the vibration device 75 to drive the cloth mold 30 to vibrate while performing step S130, so as to facilitate smooth discharge of the concrete in the cloth mold 30.

In some embodiments, after step S130, step S140 is further included: the controller controls the traveling mechanism 80 to drive the material distribution device 100 to move to the washing position, and the controller controls the washing device to wash the material distribution bin 20.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A distribution system of a concrete prefabricated part is used for distributing materials into a prefabricated part mould and is characterized by comprising a distribution device and a controller;

the distributing device comprises:

the receiving hopper is provided with a receiving port and a discharge port, and the receiving port is used for receiving concrete;

the material distribution bin is provided with a feeding hole and a material distribution opening, and the feeding hole can be connected with the discharging hole;

the material distribution die is detachably arranged in the material distribution bin;

the strickle device is arranged in the material distribution bin and is electrically connected with the controller, and the controller is used for controlling the strickle device to strickle and fill the concrete in the material distribution bin into the material distribution mould; and

the material distribution door is arranged at the material distribution opening and is electrically connected with the controller;

the controller is used for controlling the material distribution door to be in a closed state covering the bottom of the material distribution mold, or opening the material distribution port to discharge concrete in the material distribution mold to a material distribution state in the prefabricated part mold.

2. The precast concrete distribution system according to claim 1, wherein the distribution device further comprises a scrap bin which is located at one side of the distribution bin along a scraping direction of the striking-off device and is connected to the distribution bin.

3. The precast concrete distribution system of claim 2, wherein the distribution device further comprises a surplus material return device, and the surplus material return device is connected with the surplus material bin and the receiving hopper respectively;

the excess material returning device is electrically connected with the controller, and the controller controls the excess material returning device to transport the concrete in the excess material bin to the receiving hopper.

4. The precast concrete distribution system of claim 1, wherein the distribution device further comprises a vibration device, the vibration device being connected to the distribution mold;

the vibration device is electrically connected with the controller, and the controller controls the vibration device to drive the cloth mold to vibrate.

5. The precast concrete distribution system of claim 1, wherein the distribution device further comprises a stirring device and a blanking door, the stirring device is located inside the receiving hopper, and the blanking door is arranged at the discharge port;

the stirring device is electrically connected with the controller, and the controller is used for controlling the stirring device to stir the concrete in the receiving hopper;

the blanking door is electrically connected with the controller, and the controller is used for controlling the blanking door to be opened so that the concrete in the material receiving hopper falls into the material distribution bin.

6. The precast concrete distribution system of claim 1, wherein the distribution device further comprises a flushing device, the flushing device being installed in the distribution bin;

the flushing device is electrically connected with the controller, and the controller controls the flushing device to flush the interior of the material distribution bin.

7. The precast concrete distribution system according to claim 1, further comprising a traveling mechanism, wherein the distribution device is mounted to the traveling mechanism;

the traveling mechanism is electrically connected with the controller, and the controller controls the traveling mechanism to drive the distributing device to move.

8. The concrete precast element distribution system according to claim 1, wherein the shape of the inner cavity of the distribution mold is the same as the shape of the inner cavity of the precast element mold.

9. The precast concrete distribution system of claim 1, further comprising an operator station comprising an operator panel, the operator panel being electrically connected to the controller.

10. A concrete prefabricated part distributing device is used for distributing materials into a prefabricated part mould, and is characterized by comprising:

the receiving hopper is provided with a receiving port and a discharge port, and the receiving port is used for receiving concrete;

the material distribution bin is provided with a feeding hole and a material distribution opening, and the feeding hole can be connected with the discharging hole;

the material distribution die is detachably arranged in the material distribution bin;

the strickle device is arranged in the material distribution bin and is used for strickleing and filling the concrete in the material distribution bin into the material distribution mould; and

the material distribution door is arranged at the material distribution opening;

the distribution door is operable to be in a closed state covering the distribution mold, or to open the distribution port to discharge concrete in the distribution mold to a distribution state in the prefabricated member mold.

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