CN211389389U - Vibration unloading mechanism of concrete automatic pouring machine - Google Patents

Abstract

The utility model discloses a vibration blanking mechanism of an automatic concrete pouring machine, which comprises a charging barrel and a blanking channel; a stirrer is suspended in the charging barrel and comprises a stirring shaft and an umbrella-shaped conical disc; the blanking channel is divided into a transition area, a material distribution area and a material discharge area which are communicated in sequence; a rotary impeller is arranged in the material distribution area and comprises a rotary shaft and blades; transition district and the outer wall of row material district all are equipped with a set of vibrator, and the vibrator includes vibrating motor, bounding wall, spring post, and vibrating motor links to each other with the bounding wall outer wall, and the bounding wall surrounds board pipe bottom, front and back lateral part, links to each other through a plurality of groups spring post between bounding wall inner wall and the corresponding district's board pipe outer wall. The utility model discloses the unloading passageway of feed cylinder, the slope of agitator hangs in utilizing, the section sets up the multiaspect and surrounds vibrator, the middle section that sets up the rotatory impeller of branch material around the unloading passageway for concrete slurry evenly discharges in an orderly manner with discrete, fine and smooth state, makes the unloading quality better.

Description

Vibration unloading mechanism of concrete automatic pouring machine

Technical Field

The utility model belongs to the technical field of the construction, concretely relates to vibration unloading mechanism of concrete automatic pouring machine.

Background

The concrete pouring is a process of putting mixed concrete slurry into a mold until the mixed concrete slurry is plasticized, in the building engineering, materials such as concrete and the like are put into the mold to be made into a preset shape, and then the construction processes such as warehousing, leveling, tamping, compacting and the like are carried out, wherein a blanking mechanism is used as a tail end unit in a pouring machine for implementing the process and is a part before the concrete slurry is put into the mold. Because the concrete slurry belongs to an object with higher viscosity, a vibration structure is adopted in the blanking process so as to prevent the concrete slurry from being adhered in a container and being difficult to fall.

Although there is current pouring machine vibration unloading mechanism to flow to the concrete thick liquids and provide vibration power, because its viscidity, become to stick together, caking easily at the unloading in-process, and then make the unloading inhomogeneous, not last, influence and pour the effect.

SUMMERY OF THE UTILITY MODEL

Not enough and a difficult problem to among the prior art, the utility model aims at providing a concrete automatic pouring machine's vibration unloading mechanism.

The utility model discloses a following technical scheme realizes:

a vibration blanking mechanism of an automatic concrete pouring machine comprises a charging barrel and a blanking channel which is communicated with the tail end of the charging barrel and inclines downwards; a stirrer is suspended in the charging barrel, the top end of the charging barrel is communicated with the feeding pipe, the stirrer comprises a stirring shaft and an umbrella-shaped conical disc fixed at the tail end of the stirring shaft, and the outer diameter of the bottom surface of the conical disc is smaller than the inner diameter of the charging barrel; the blanking channel is an integrated plate tube and is divided into a transition area, a material distribution area and a material discharge area which are sequentially communicated, the transition area is communicated with the tail end of the charging barrel, the material distribution area is in a circular plate tube shape, and the transition area and the material discharge area are both in a square plate tube shape; a rotary impeller is arranged in the material distribution area, the rotary impeller comprises a rotary shaft and a plurality of groups of uniformly distributed blades which are arranged on the outer wall of the rotary shaft and extend to the pipe wall of the material distribution area, and a clamping cavity between every two blades is a material cavity; transition district and the outer wall of arranging the material district all are equipped with a set of vibrator, and the vibrator includes vibrating motor, bounding wall, spring post, and vibrating motor links to each other with the bounding wall outer wall, and the bounding wall surrounds bottom, preceding back lateral part that correspond district's board pipe, and the bounding wall inner wall links to each other through a plurality of groups spring post between with corresponding district's board pipe outer wall.

Further, the surface of the conical disc is provided with a plurality of groups of fins.

Furthermore, the outer ends of the blades are scraping teeth which are abutted against the pipe wall of the material distribution area.

Furthermore, the scraping racks of the adjacent blades are arranged in a mutually staggered mode.

Further, the slope of unloading passageway is 15~ 45.

Further, the depth of the material distribution area is greater than that of the transition area.

Compared with the prior art, the utility model discloses beneficial effect includes:

(1) the utility model discloses the unloading passageway of feed cylinder, the slope of agitator hangs in utilizing, the section sets up the multiaspect and surrounds vibrator, the middle section that sets up the rotatory impeller of branch material around the unloading passageway for concrete slurry evenly discharges in an orderly manner with discrete, fine and smooth state, makes the unloading quality better.

(2) The utility model discloses hang the agitator in the feed cylinder, along with the (mixing) shaft rotates, fall on the awl dish and thrown away by the centrifugation and fall into, and then be in discrete state when making it fall into the unloading passageway, its dispersion can be reinforceed to the fin.

(3) The material distributing area of the utility model is provided with the rotary impeller to form a similar star-shaped discharger, the clamping cavity is shifted along with the rotation of the rotary shaft, the clamping cavity is a material receiving cavity when the clamping cavity is connected with the transition area and a material discharging cavity when the clamping cavity is connected with the material discharging area, so that the slurry is transported evenly and orderly instead of being discharged in a large group,

(4) the utility model discloses the vibration that vibrating motor produced passes through bounding wall, spring post and transmits each face of excessive district and row material district's board pipe, avoids the easy adhesion of thick liquids on the pipe lateral wall, can improve unloading efficiency.

Drawings

Fig. 1 is a schematic view of the internal main view structure of the present invention.

Fig. 2 is a schematic view of the interior of the present invention.

Illustration of the drawings: 1-charging barrel, 2-blanking channel, 21-transition zone, 22-material distribution zone, 23-material discharge zone, 3-vibrator, 31-vibration motor, 32-coaming, 33-spring column, 4-rotary impeller, 41-blade, 42-rotating shaft, 43-scraping tooth, 5-stirrer, 51-stirring shaft, 52-conical disc, 53-fin and 6-material feeding pipe.

In the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, integrally connected; can be mechanical connection and electrical connection; may be directly connected, indirectly connected through intervening agents, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood to be specific to those skilled in the art.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 and 2, the vibrating blanking mechanism of the concrete automatic pouring machine comprises a charging barrel 1 and a blanking channel 2 which is communicated with the tail end of the charging barrel 1 and inclines downwards.

In specific implementation, the charging barrel 1 is communicated with a pouring machine bin, the mixed concrete slurry is poured into the charging barrel 1 and then poured out through the discharging channel 2, and the rest parts (such as units for loading, mixing, stirring and the like) of the pouring machine are designed conventionally and are not described again.

In order to make the unloading in-process, the thick liquids are more exquisite, agitator 5 hangs in the feed cylinder 1, feed cylinder 1 top and pan feeding pipe 6 intercommunication, because the concrete thick liquids belong to the finished product of mixing, agitator 5's effect is avoided it to become to stick together, so need not powerful agitating unit, agitator 5 includes (mixing) shaft 51, fix at the terminal umbelliform awl dish 52 of (mixing) shaft 51, awl dish 52 bottom surface external diameter is less than feed cylinder 1 internal diameter, make awl dish 52 bottom outer edge and feed cylinder 1 section of thick bamboo wall have certain vacancy, be convenient for the thick liquids to fall down, awl dish 52 surface mounting a plurality of groups of fin 53, assembly intercommunication such as (mixing) shaft 51 and its pivoted power of external drive, transmission, along with (mixing) shaft 51 rotates, fall and be thrown away on awl dish 52 and fall into by the centrifugation, and then make it be in discrete state when falling into unloading passageway 2, fin 53 can strengthen its dispersion.

The blanking channel 2 is an integrated plate tube and is divided into a transition area 21, a distribution area 22 and a discharge area 23 which are sequentially communicated, the transition area 21 is communicated with the tail end of the charging barrel 1, the distribution area 22 is used for uniformly and orderly conveying slurry, the distribution area 22 is in a circular plate tube shape (namely the overlooking surface of the distribution area is circular, and the side view surface of the distribution area is square), and the transition area 21 and the discharge area 23 are both in a square plate tube shape (namely the overlooking surface and the side view of the distribution area are both square).

The distributing area 22 is internally provided with a rotary impeller 4, the rotary impeller 4 comprises a rotary shaft 42, a plurality of groups of uniformly distributed blades 41 which are arranged on the outer wall of the rotary shaft 42 and extend towards the pipe wall of the distributing area 22, a clamping cavity between every two blades 41 is an area for placing slurry during transportation, the clamping cavity is also transferred along with the rotation of the rotary shaft 42, the clamping cavity is a material receiving cavity when the clamping cavity is connected with the transition area 21 and a material discharging cavity when the clamping cavity is connected with the material discharging area 23, the rotary impeller 4 is utilized to form a similar star-shaped discharger, so that the slurry is transported uniformly and orderly, but not discharged in a large lump, the outer ends of the blades 41 are scraping teeth 43, the scraping teeth 43 are abutted against the pipe wall of the distributing area 22, the slurry is prevented from being adhered to the pipe wall, and the racks of the scraping teeth 43 of the adjacent blades 41 are arranged.

The outer walls of the transition area 21 and the discharge area 23 are both provided with a group of vibrators 3, the action range of a conventional vibrating device is only the bottom, and slurry is easily adhered to the side walls of the transition area 21 and the discharge area 23 after a long time, so that the use is influenced. Vibrator 3 includes vibrating motor 31, bounding wall 32, spring post 33, vibrating motor 31 links to each other with bounding wall 32 outer wall, bounding wall 32 will correspond the bottom of district (excessive district 21 and row material district 23) board pipe, preceding back lateral part surrounds, link to each other through a plurality of groups spring post 33 between 32 inner walls of bounding wall and the corresponding district board pipe outer wall, the vibration that vibrating motor 31 produced passes through bounding wall 32, spring post 33 transmits to corresponding district (excessive district 21 and row material district 23) each face of board pipe, avoid the easy adhesion of thick liquids on the pipe lateral wall, can improve unloading efficiency. In the concrete implementation, the charging barrel 1, the blanking channel 2 and the vibrator 3 are all fixed through a supporting device (such as a rack and a supporting rod).

In the preferred structure, the slope of unloading passageway 2 is 15~45 degrees, and this slope scope makes the thick liquids velocity of flow suitable, avoids its too slow or too fast flow.

The depth of the dividing region 22 is greater than the transition region 22 to facilitate slurry falling into the dividing region 22.

In specific implementation, the utility model discloses still include agitator 5, rotary impeller 4's driving system, transmission system, its structure, connection, constitution all adopt current design, no longer describe herein.

The foregoing merely illustrates preferred embodiments of the present invention, which are described in considerable detail and detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes, modifications and substitutions can be made, which are all within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. The utility model provides a concrete automatic pouring machine's vibration unloading mechanism which characterized in that: comprises a charging barrel and a blanking channel which is communicated with the tail end of the charging barrel and inclines downwards; a stirrer is hung in the charging barrel, the top end of the charging barrel is communicated with the feeding pipe, the stirrer comprises a stirring shaft and an umbrella-shaped conical disc fixed at the tail end of the stirring shaft, and the outer diameter of the bottom surface of the conical disc is smaller than the inner diameter of the charging barrel; the blanking channel is an integrated plate tube and is divided into a transition area, a material distribution area and a material discharge area which are sequentially communicated, the transition area is communicated with the tail end of the charging barrel, the material distribution area is in a circular plate tube shape, and the transition area and the material discharge area are both in a square plate tube shape; a rotary impeller is arranged in the material distribution area, the rotary impeller comprises a rotary shaft and a plurality of groups of uniformly distributed blades which are arranged on the outer wall of the rotary shaft and extend to the pipe wall of the material distribution area, and a clamping cavity between every two blades is a material cavity; the transition area with the outer wall in row material district all is equipped with a set of vibrator, the vibrator includes vibrating motor, bounding wall, spring post, vibrating motor with the bounding wall outer wall links to each other, the bounding wall surrounds bottom, front and back lateral part of corresponding district's board pipe, pass through a plurality of groups between bounding wall inner wall and the corresponding district board pipe outer wall the spring post links to each other.

2. The vibrating blanking mechanism of the automatic concrete pouring machine according to claim 1, characterized in that: and a plurality of groups of fins are arranged on the surface of the conical disc.

3. The vibrating blanking mechanism of the automatic concrete pouring machine according to claim 1, characterized in that: the outer ends of the blades are scraping teeth which are abutted against the pipe wall of the material distribution area.

4. The vibrating blanking mechanism of the automatic concrete pouring machine according to claim 3, characterized in that: the scraping tooth racks of the adjacent blades are mutually staggered.

5. The vibrating blanking mechanism of the automatic concrete pouring machine according to claim 1, characterized in that: the slope of unloading passageway is 15~ 45.

6. The vibrating blanking mechanism of the automatic concrete pouring machine according to claim 1, characterized in that: the depth of the material distribution area is greater than that of the transition area.

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