CN214555045U - Concrete sediment separation recovery unit that portable turnover was used - Google Patents

Abstract

The utility model discloses a concrete sediment separation recovery unit that portable turnover was used, including filtering separation device, large grain diameter collection device, small-size grain diameter collection device and waste water collection device, wherein: the large-particle-size collecting device is arranged below a large-particle-size discharge port of the filtering and separating device, the small-particle-size collecting device is arranged below a small-particle-size discharge port of the filtering and separating device, and the wastewater collecting device is arranged below a wastewater outlet pipe of the small-particle-size collecting device; the large-particle-size collecting device is provided with a large-particle-size discharge opening, the small-particle-size collecting device is provided with a small-particle-size discharge opening, and the wastewater collecting device is provided with a discharge pipe; universal wheels are arranged at the bottoms of the filtering separation device, the large-particle-size collecting device, the small-particle-size collecting device and the wastewater collecting device. The utility model discloses realized abundant separation recovery to concrete clout and pumping pipe cleaning wastewater to effectively carry out reutilization, be suitable for to promote and popularize.

Description

Concrete sediment separation recovery unit that portable turnover was used

Technical Field

The utility model relates to a concrete sediment separation recovery plant especially indicates a concrete sediment separation recovery unit that portable turnover was used.

Background

With the rapid development of the national construction industry, the recycling of the waste materials generated in the construction is more and more important, if the waste materials are not utilized, the great resource waste and the environmental pollution are caused, and the construction cost is invisibly improved. Concrete clout recovery unit has appeared at present, but because of its structure is complicated, so only be used for large-scale enterprise and merchant to mix in the station usually, and the job site often can not install, does not obtain enough attention to make concrete clout recycle be difficult to promote, simultaneously, this concrete clout recovery unit need adopt a large amount of clear water to wash when retrieving, and the waste water of production can not directly utilize, this waste of not only having led to the fact the water resource makes the environment receive the pollution again. Therefore, the separation and recovery device which is simple in structure and can be conveniently used on a construction site is designed, and the problem which needs to be solved at present is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete sediment separation recovery unit that portable turnover was used, it has realized abundant separation and recovery to concrete clout and pumping pipe cleaning wastewater to effectively carry out reutilization, be suitable for to popularize.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a concrete sediment separation recovery unit that portable turnover was used which characterized in that: it includes filtering separation device, large grain size collection device, small grain size collection device and waste water collection device, wherein: the large-particle-size collecting device is arranged below a large-particle-size discharge port of the filtering and separating device, the small-particle-size collecting device is arranged below a small-particle-size discharge port of the filtering and separating device, and the wastewater collecting device is arranged below a wastewater outlet pipe of the small-particle-size collecting device; the large-particle-size collecting device is provided with a large-particle-size discharge opening, the small-particle-size collecting device is provided with a small-particle-size discharge opening, and the wastewater collecting device is provided with a discharge pipe; universal wheels are arranged at the bottoms of the filtering separation device, the large-particle-size collecting device, the small-particle-size collecting device and the wastewater collecting device.

The utility model has the advantages that:

the utility model discloses the structure is succinct, has designed tertiary collecting pit, has realized abundant separation and has retrieved concrete clout and pumping pipe cleaning wastewater to effectively carry out the reutilization, reduced the pollution to the environment, be suitable for to promote and popularize. The utility model discloses the simple operation, it is with low costs, very be applicable to the job site, greatly promoted the recycle to the concrete sediment.

Drawings

FIG. 1 is a schematic structural view of the concrete slag separating and recovering device of the present invention.

Fig. 2 is a schematic top view of fig. 1.

Fig. 3 is a schematic sectional view of the filtering separation device shown in fig. 2 from the direction of a-a.

Detailed Description

As shown in fig. 1 to 3, the concrete slag separating and recycling device of the present invention comprises a filtering and separating device 10, a large grain size collecting device 20, a small grain size collecting device 30 and a waste water collecting device 40, wherein: the large-particle-size collecting device 20 is arranged below the large-particle-size discharge port 13 of the filtering and separating device 10, the small-particle-size collecting device 30 is arranged below the small-particle-size discharge port of the filtering and separating device 10, and the wastewater collecting device 40 is arranged below the wastewater outlet pipe 36 of the small-particle-size collecting device 30; the large-particle-size collecting device 20 is provided with a large-particle-size discharge opening 23, the small-particle-size collecting device 30 is provided with a small-particle-size discharge opening 33, and the wastewater collecting device 40 is provided with a discharge pipe 43; universal wheels 50 convenient to move and use in a turnover mode are mounted at the bottoms of the filtering separation device 10, the large-particle-size collecting device 20, the small-particle-size collecting device 30 and the wastewater collecting device 40.

As shown in fig. 1 and 2, the filtering and separating device 10 includes a filtering and separating support frame 11, a funnel-type filtering and separating tank 12 in an inverted frustum-pyramid shape is mounted on the filtering and separating support frame 11, and generally, the funnel-type filtering and separating tank 12 may be in an inverted frustum-pyramid shape, as shown in fig. 2, a metal filter screen 70 is obliquely mounted in the funnel-type filtering and separating tank 12, a large-particle-diameter discharge port 13 is obliquely mounted on an upper portion of the funnel-type filtering and separating tank 12, the large-particle-diameter discharge port 13 is communicated with the funnel-type filtering and separating tank 12, or an inlet height of the large-particle-diameter discharge port 13 is consistent with a top opening of the funnel-type filtering and separating tank 12, an outlet of the large-particle-diameter discharge port 13 is obliquely arranged below the inlet thereof, and a bottom opening of the funnel-type filtering and separating tank 12 forms a small-particle-diameter discharge port 14.

As shown in fig. 2 and 3, the metal filter net 70 includes a plurality of filter layers stacked up and down, each filter layer is composed of a plurality of metal rods 71 arranged side by side at equal intervals, fig. 3 shows a case of designing two filter layers, and the length of each metal rod 71 in each filter layer is designed reasonably according to the shape of the funnel type filtering and separating tank 12.

Further, the metal filter screen 70 extends obliquely downward from the side of the funnel-type filtering and separating tank 12 opposite to the large particle size discharge port 13 to the height of the large particle size discharge port 13.

In practical design, the distance or gap between two adjacent metal rods 71 is designed according to the concrete particle size to be screened and separated, in other words, the distance between two adjacent metal rods 71 should be smaller than or equal to the particle size of the large-particle size concrete remainder to be screened and separated and larger than the particle size of the small-particle size concrete remainder to be allowed to pass through.

In the present invention, the metal rod 71 is made of a round rod made of steel.

As shown in fig. 1 and 2, the large particle size collecting device 20 includes a large particle size collecting support frame 21, a large particle size collecting tank 22 in a rectangular (square or rectangular) shape is mounted on the large particle size collecting support frame 21, a top opening of the large particle size collecting tank 22 is located below the large particle size discharge port 13, and a large particle size discharge port 23 is mounted at a lower portion of the large particle size collecting tank 22.

Further, a valve plate 24 is removably mounted at a communication opening of the large-particle-size discharge opening 23 and the large-particle-size collection tank 22, and a handle 25 for facilitating operation is mounted on the valve plate 24.

As shown in fig. 1 and 2, the small particle size collecting device 30 includes a small particle size collecting support 31, a small particle size collecting tank 32 in a rectangular (cube or rectangular parallelepiped) shape is installed on the small particle size collecting support 31, a top opening of the small particle size collecting tank 32 is located below the small particle size discharge port 14, a waste water outlet pipe 36 is installed on the upper portion of the small particle size collecting tank 32 in an inclined manner, the waste water outlet pipe 36 is communicated with the small particle size collecting tank 32, or an inlet height of the waste water outlet pipe 36 is consistent with the top opening of the small particle size collecting tank 32, an outlet of the waste water outlet pipe 36 is lower than an inlet of the waste water outlet pipe and is arranged in an inclined manner, and a small particle size discharge port 33 is installed on the lower portion of the small particle size collecting tank 32.

Further, a valve plate 34 is removably mounted at a communication opening of the small particle size discharge port 33 communicated with the small particle size collection tank 32, and a handle 35 for facilitating operation is mounted on the valve plate 34.

As shown in fig. 1 and 2, the waste water collecting device 40 includes a waste water collecting support 41, a rectangular (square or rectangular) waste water collecting tank 42 is mounted on the waste water collecting support 41, the top of the waste water collecting tank 42 is open below the waste water outlet pipe 36, and a discharge pipe 43 is obliquely mounted on the lower portion of the waste water collecting tank 42.

In the utility model discloses in, as shown in fig. 1, all install the rings 60 of the handling of being convenient for on filtering and separating device 10, large grain diameter collection device 20, small-size grain diameter collection device 30 and the waste water collection device 40.

In practical design, the filtering separation support frame 11, the large-particle-size collection support frame 21, the small-particle-size collection support frame 31 and the wastewater collection support frame 41 are all formed by welding a cross rod 81 and a vertical rod 82, and the cross rod 81 and the vertical rod 82 are usually made of steel. In addition, the funnel-type filtering and separating tank 12, the large particle size collecting tank 22, the small particle size collecting tank 32 and the waste water collecting tank 42 are all formed by welding steel plates.

The utility model discloses a theory of operation does:

the waste excess materials generated in the construction production are mostly concrete residues, and the concrete residues comprise concrete excess materials (such as excess materials of a commercial concrete tank truck and residual concrete waste materials in a pumping pipe) and cleaning wastewater of the pumping pipe.

When in use, the concrete slag is poured into the funnel-type filtering and separating tank 12 of the filtering and separating device 10, and then the funnel-type filtering and separating tank 12 screens and separates each component in the concrete slag. The concrete residue with large particle size (usually, the concrete residue with particle size of 20mm or more, such as gravel aggregate) rolls along the metal filter screen 70, and directly falls into the collection pool 22 with large particle size through the discharge port 13 with large particle size, and the concrete residue with small particle size (usually, the concrete residue with particle size of less than 20mm, such as sand and stone) and the pumping pipe cleaning wastewater fall into the collection pool 32 with small particle size through the gap of the metal filter screen 70.

The small-particle-size concrete remainder and the pumping pipe cleaning wastewater are settled and kept still in the small-particle-size collecting tank 32, so that the small-particle-size concrete remainder is settled at the bottom, and the pumping pipe cleaning wastewater on the small-particle-size concrete remainder flows into the wastewater collecting tank 42 through the wastewater outlet pipe 36 after reaching the height of the wastewater outlet pipe 36, is collected and stored, and is discharged through the discharge pipe 43 at proper time to be used for engineering vehicle washing, construction maintenance and the like.

After the large-particle-size concrete excess materials reaching a certain volume are collected in the large-particle-size collecting tank 22, the valve plate 24 is pulled upwards manually, so that the large-particle-size concrete excess materials can be discharged from the large-particle-size discharge opening 23, and then secondary utilization can be performed, such as secondary stirring, backfilling, temporary construction raw materials and the like.

Similarly, after the small-particle-size concrete excess material is collected in the small-particle-size collection tank 32 to a certain capacity, the valve plate 34 is manually pulled upward, so that the small-particle-size concrete excess material can be discharged from the small-particle-size discharge opening 33, and then secondary utilization can be performed, such as temporary equipment foundation bed, temporary road hardening and the like.

The above description is the preferred embodiment of the present invention and the technical principle applied by the preferred embodiment, and for those skilled in the art, without departing from the spirit and scope of the present invention, any obvious changes based on the equivalent transformation, simple replacement, etc. of the technical solution of the present invention all belong to the protection scope of the present invention.

Claims (9)

1. The utility model provides a concrete sediment separation recovery unit that portable turnover was used which characterized in that: it includes filtering separation device, large grain size collection device, small grain size collection device and waste water collection device, wherein: the large-particle-size collecting device is arranged below a large-particle-size discharge port of the filtering and separating device, the small-particle-size collecting device is arranged below a small-particle-size discharge port of the filtering and separating device, and the wastewater collecting device is arranged below a wastewater outlet pipe of the small-particle-size collecting device; the large-particle-size collecting device is provided with a large-particle-size discharge opening, the small-particle-size collecting device is provided with a small-particle-size discharge opening, and the wastewater collecting device is provided with a discharge pipe; universal wheels are arranged at the bottoms of the filtering separation device, the large-particle-size collecting device, the small-particle-size collecting device and the wastewater collecting device.

2. The movable recyclable concrete slag separating and recycling device as claimed in claim 1, characterized in that:

the filtering and separating device comprises a filtering and separating support frame, a funnel type filtering and separating tank in an inverted frustum pyramid shape is installed on the filtering and separating support frame, a metal filter screen is installed in the funnel type filtering and separating tank in an inclined mode, the upper portion of the funnel type filtering and separating tank is installed in an inclined mode, the large-particle-diameter discharge port and the bottom opening of the funnel type filtering and separating tank form the small-particle-diameter discharge port.

3. The movable recyclable concrete slag separating and recycling device as claimed in claim 2, characterized in that:

the metal filter screen comprises a plurality of filter layers which are arranged in an up-down stacked mode, and each filter layer is composed of a plurality of metal rods which are arranged side by side at equal intervals;

the metal filter screen extends downwards from one side of the funnel type filtering separation tank opposite to the large-particle-size discharge port in an inclined mode to the height of the large-particle-size discharge port.

4. The movable recyclable concrete slag separating and recycling device as claimed in claim 2, characterized in that:

the large-particle-size collecting device comprises a large-particle-size collecting support frame, a rectangular large-particle-size collecting pool is mounted on the large-particle-size collecting support frame, the top opening of the large-particle-size collecting pool is located below the large-particle-size discharge port, and the large-particle-size discharge port is mounted on the lower portion of the large-particle-size collecting pool.

5. The movable recyclable concrete slag separating and recycling device as claimed in claim 4, characterized in that:

the large-particle-size discharge opening is connected with the large-particle-size collecting tank, a valve plate is arranged at the opening communicated with the large-particle-size collecting tank in a pluggable mode, and a handle is arranged on the valve plate.

6. The movable recyclable concrete slag separating and recycling device as claimed in claim 2, characterized in that:

small-size footpath collection device includes small-size footpath collection support frame, and the small-size footpath collection support frame is last to install the small-size collecting pit of cuboid form, and the uncovered top of small-size footpath collecting pit is in the below of small-size particle discharge gate, the upper portion slope of small-size footpath collecting pit is installed waste water outlet pipe, the lower part of small-size particle collecting pit is installed the small-size particle discharge opening.

7. The movable recyclable concrete slag separating and recycling device as claimed in claim 6, characterized in that:

the small-particle-size discharge opening and the communicating opening part communicated with the small-particle-size collecting tank are provided with a valve plate in a pluggable manner, and the valve plate is provided with a handle.

8. The movable recyclable concrete slag separating and recycling device as claimed in claim 6, characterized in that:

the waste water collecting device comprises a waste water collecting support frame, a rectangular waste water collecting pool is mounted on the waste water collecting support frame, the top opening of the waste water collecting pool is located below the waste water outlet pipe, and the lower portion of the waste water collecting pool is obliquely mounted with the discharge pipe.

9. The movable recyclable concrete slag separating and recycling device as claimed in any one of claims 1 to 8, characterized in that:

and the filtering and separating device, the large-particle-size collecting device, the small-particle-size collecting device and the wastewater collecting device are all provided with hanging rings.

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