CN217027404U - A green rainwater collection device for building engineering - Google Patents

Abstract

The utility model discloses a green and environment-friendly rainwater collecting device for constructional engineering, which comprises a base, a collecting barrel, a filtering barrel, a rotating device, an adsorption device, a settling barrel, a precipitant storage tank and a cleaning device, wherein a support is arranged on the lower wall of the base, the collecting barrel and the settling barrel are both arranged on the base, the settling barrel is positioned on one side of the collecting barrel, the rotating device is arranged in the collecting barrel, the filtering barrel is arranged on the rotating device, the adsorption device is arranged on the collecting barrel, a first water delivery pump is arranged on the settling barrel, a first water delivery pipe is arranged between the first water delivery pump and the settling barrel and extends into the settling barrel, a second water delivery pipe is arranged between the first water delivery pump and the collecting barrel and extends into the filtering barrel, the precipitant storage tank is arranged on the settling barrel, and the cleaning device is arranged in the settling barrel. The utility model relates to the technical field of rainwater collection, and particularly provides a green and environment-friendly rainwater collection device for construction engineering, which has a function of sediment sedimentation and is convenient for cleaning a filter vat.

Description

A green rainwater collection device for building engineering

Technical Field

The utility model relates to the technical field of rainwater collection, in particular to a green and environment-friendly rainwater collection device for constructional engineering.

Background

Along with the attention of the country to the environmental protection career, the cost of water resource use is increased year by year, the collection and the reuse of the rainwater become a method for relieving the shortage of water resources, more and more buildings are provided with rainwater collection systems, and the collected rainwater can be used for stirring concrete, so that the water resources are saved, and the problem of the shortage of water in China is greatly relieved.

The building engineering job site generally adopts the cistern to collect the rainwater, but floats in the cistern and leads to the fact the filter screen to block up with silt is more easily to the influence uses the rainwater to the stirring efficiency of concrete.

SUMMERY OF THE UTILITY MODEL

To above-mentioned condition, for remedying above-mentioned current defect, this scheme provides a function that has silt and deposit, and convenient green rainwater collection device for building engineering to the clearance of filter vat.

The technical scheme adopted by the utility model is as follows: the utility model provides a green rainwater collection device for building engineering, includes base, collecting vessel, filter vat, rotary device, adsorption equipment, sedimentation bucket, precipitant bin and cleaning device, the base lower wall is equipped with the support, collecting vessel and sedimentation bucket all locate on the base, the sedimentation bucket is located collecting vessel one side, rotary device locates in the collecting vessel, the filter vat is located on the rotary device, adsorption equipment locates on the collecting vessel, be equipped with water delivery pump one on the sedimentation bucket, be equipped with water delivery pump one between water delivery pump one and the sedimentation bucket, water delivery pipe one extends to in the sedimentation bucket, be equipped with raceway two between water delivery pump one and the collecting vessel, raceway two extends to in the filter vat, the precipitant bin is located on the sedimentation bucket, cleaning device locates in the sedimentation bucket.

Further, rotary device includes rotating electrical machines protective housing and rotating electrical machines, the rotating electrical machines protective housing is located on the diapire in the collecting box, the rotating electrical machines is located in the rotating electrical machines protective housing, the filter vat is located on the output shaft of rotating electrical machines.

Furthermore, the adsorption device comprises an adsorption pump, a collection tank and a blower, the adsorption pump is arranged on the collection tank, a first adsorption tube is arranged between the adsorption pump and the collection tank, the first adsorption tube extends into the filter tank, an adsorption head is arranged on the first adsorption tube and is communicated with the first adsorption tube, a plurality of groups of adsorption heads are arranged on the adsorption head, the collection tank is arranged on the collection tank, a second adsorption tube is arranged between the adsorption pump and the collection tank, the blower is arranged on the collection tank, a first air conveying pipe is arranged at an outlet of the blower, a second air conveying pipe is arranged on the first air conveying pipe and extends into the collection tank, the second air conveying pipe is positioned on two sides of the filter tank, blowing heads are arranged on the second air conveying pipe and are communicated with the second air conveying pipe, and the plurality of groups of blowing heads are arranged.

Further, cleaning device is including clearance positive and negative motor, clearance lead screw, clearance guide bar and clearance board, the positive and negative motor of clearance is located on the precipitation bucket lateral wall, the clearance lead screw rotates and locates on the inner wall of precipitation bucket both sides, the clearance lead screw is connected with the output shaft of clearance positive and negative motor, the clearance guide bar is located on the inner wall of precipitation bucket both sides, the clearance guide bar is located clearance lead screw top, the clearance board is located on the clearance lead screw through the screw thread, the clearance board slides and locates on the clearance guide bar, the clearance board is tangent with the interior diapire of precipitation bucket.

Furthermore, a water delivery pump II is arranged on the sedimentation barrel, a water delivery pipe III is arranged between the water delivery pump II and the sedimentation barrel, the water delivery pipe III extends into the sedimentation barrel, and a water delivery pipe IV is arranged at a water inlet of the water delivery pump II.

Furthermore, a water outlet pipe is arranged on the bottom wall of one side of the collecting box, and an electromagnetic control valve is arranged on the water outlet pipe.

Further, the articulated apron that is equipped with on the precipitant bin, be equipped with the handle on the apron, be equipped with the interpolation pipe on the precipitant bin, add in the pipe extends to the setting vat, be equipped with solenoid electric valve on the interpolation pipe.

Furthermore, two ends of the bottom wall of the sedimentation barrel are provided with drain outlets, and the drain outlets are provided with electromagnetic control valves.

The utility model with the structure has the following beneficial effects: this scheme a green rainwater collection device for building engineering, through rotary device and adsorption equipment's mutually supporting, has realized the cleanness to in the filter vat, through the setting of precipitant bin, has realized deposiing the silt that contains in the rainwater in deposiing to prevented filter screen blocking, and through cleaning device, realized clearing up the silt that deposits in the sedimentation tank.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is an overall structural view of a green rainwater collecting device for construction engineering according to the present invention.

The device comprises a base 1, a base 2, a collecting barrel 3, a filter barrel 4, a rotating device 5, an adsorption device 6, a settling barrel 7, a precipitant storage box 8, a cleaning device 9, a support 10, a first water delivery pump 11, a first water delivery pipe 12, a second water delivery pipe 13, a rotating motor protective shell 14, a rotating motor 15, a water outlet pipe 16, an adsorption pump 17, a collecting box 18, a blower 19, a first adsorption pipe 20, an adsorption head 21, a second adsorption pipe 22, a first air delivery pipe 23, a blowing head 24, a cleaning positive and negative motor 25, a cleaning screw rod 26, a cleaning guide rod 27, a cleaning plate 28, a second water delivery pump 29, a third water delivery pipe 30, a fourth water delivery pipe 31, an adding pipe 32, an electromagnetic control valve 33, a sewage discharge port 34, a second air delivery pipe 35, a cover plate 36 and a handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the technical solution adopted by the utility model is as follows: a green environment-friendly rainwater collecting device for constructional engineering, which comprises a base 1, a collecting barrel 2, a filter barrel 3 and a rotating device 4, adsorption equipment 5, precipitation bucket 6, precipitant bin 7 and cleaning device 8, 1 lower wall of base is equipped with support 9, collecting vessel 2 and precipitation bucket 6 are all located on base 1, precipitation bucket 6 is located 2 one sides of collecting vessel, rotary device 4 is located in collecting vessel 2, filter vat 3 is located on rotary device 4, adsorption equipment 5 is located on collecting vessel 2, be equipped with water delivery pump 10 on the precipitation bucket 6, be equipped with raceway 11 between water delivery pump 10 and the precipitation bucket 6, raceway 11 extends to in the precipitation bucket 6, be equipped with raceway two 12 between water delivery pump 10 and the collection bucket 2, raceway two 12 extends to in the filter vat 3, precipitant bin 7 is located on precipitation bucket 6, cleaning device 8 is located in precipitation bucket 6.

As shown in fig. 1, the rotating device 4 includes a rotating electric machine protection shell 13 and a rotating electric machine 14, the rotating electric machine protection shell 13 is disposed on the inner bottom wall of the collection box 2, the rotating electric machine 14 is disposed in the rotating electric machine protection shell 13, and the filter vat 3 is disposed on an output shaft of the rotating electric machine 14.

As shown in fig. 1, the adsorption device 5 includes an adsorption pump 16, a collection tank 17 and a blower 18, the adsorption pump 16 is disposed on the collection tank 2, a first adsorption tube 19 is disposed between the adsorption pump 16 and the collection tank 2, the first adsorption tube 19 extends into the filter tank 3, an adsorption head 20 is disposed on the first adsorption tube 19, the adsorption head 20 is communicated with the first adsorption tube 19, the adsorption heads 20 are provided with multiple groups, the collection tank 17 is disposed on the collection tank 2, a second adsorption tube 21 is disposed between the adsorption pump 16 and the collection tank 17, the blower 18 is disposed on the collection tank 2, a first air delivery tube 22 is disposed at an outlet of the blower 18, a second air delivery tube 34 is disposed on the first air delivery tube 22, the second air delivery tube 34 extends into the collection tank 2, the second air delivery tube 34 is disposed on two sides of the filter tank 3, a blowing head 23 is disposed on the second air delivery tube 34, the blowing head 23 is communicated with the second air delivery tube 34, and the blowing head 23 is provided with multiple groups.

As shown in fig. 1, the cleaning device 8 comprises a cleaning positive and negative motor 24, a cleaning lead screw 25, a cleaning guide rod 26 and a cleaning plate 27, the cleaning positive and negative motor 24 is arranged on the outer side wall of the precipitation barrel 6, the cleaning lead screw 25 is rotatably arranged on the inner walls of the two sides of the precipitation barrel 6, the cleaning lead screw 25 is connected with an output shaft of the cleaning positive and negative motor 24, the cleaning guide rod 26 is arranged on the inner walls of the two sides of the precipitation barrel 6, the cleaning guide rod 26 is positioned above the cleaning lead screw 25, the cleaning plate 27 is arranged on the cleaning lead screw 25 through threads, the cleaning plate 27 is slidably arranged on the cleaning guide rod 26, and the cleaning plate 27 is tangent to the inner bottom wall of the precipitation barrel 6.

As shown in fig. 1, a second water delivery pump 28 is arranged on the sedimentation barrel 6, a third water delivery pipe 29 is arranged between the second water delivery pump 28 and the sedimentation barrel 6, the third water delivery pipe 29 extends into the sedimentation barrel 6, and a fourth water delivery pipe 30 is arranged at a water inlet of the second water delivery pump 28.

As shown in FIG. 1, a water outlet pipe 15 is arranged on the bottom wall of one side of the collection box 2, and an electromagnetic control valve 32 is arranged on the water outlet pipe 15.

As shown in fig. 1, a cover plate 35 is hinged on the precipitant storage tank 7, a handle 36 is arranged on the cover plate 35, an adding pipe 31 is arranged on the precipitant storage tank 7, the adding pipe 31 extends into the precipitation barrel 6, and an electromagnetic control valve 32 is arranged on the adding pipe 31.

As shown in figure 1, two ends of the bottom wall of the sedimentation barrel 6 are provided with drain outlets 33, and the electromagnetic control valve 32 is arranged on the drain outlets 33.

When the device is used, when rainwater in the sedimentation tank is used, firstly, the rainwater is filtered to prevent floating and silt from blocking a filter screen, a second water delivery pump 28 is started, a fourth water delivery pipe 30 pumps the rainwater in the sedimentation tank into a sedimentation barrel 6, a precipitator in a precipitator storage tank 7 is put into the sedimentation barrel 6 by opening an electromagnetic control valve 32 on an adding pipe 31 to precipitate the silt, a first water delivery pump 10 is started, the rainwater in the sedimentation barrel 6 is pumped into a filter barrel 3 by a first water delivery pipe 11, the floating objects are intercepted in the filter barrel 3 under the filtering action of the filter barrel 3 and are discharged for use by a water outlet pipe 15, when the silt precipitated in the sedimentation barrel 6 is too much and needs to be cleaned, the electromagnetic control valve 32 on a drain outlet 33 is opened, a positive and negative cleaning motor 24 is started, an output shaft of the positive and negative cleaning motor 24 drives a cleaning screw rod 25 to rotate, the cleaning screw rod 25 rotates to drive a cleaning plate 27 to move along the cleaning guide rod 26, the cleaning plate 27 moves to discharge sediment precipitated in the precipitation barrel 6 through the sewage outlet 34, when floaters in the filter barrel 3 need to be cleaned, the rotating motor 14 is started, the rotating motor 14 drives the filter barrel 3 to rotate, the filter barrel 3 rotates to enable water on the floaters to fall off under the action of centrifugal force, the adsorption pump 16 and the air blower 18 are started, under the combined action of the adsorption pump 16, the adsorption pipe I19, the adsorption head 20 and the adsorption pipe II 21, the floaters in the filter barrel 3 are sucked into the collection box 17, and under the combined action of the air blower 18, the air conveying pipe I22, the blowing head 23 and the air conveying pipe II 34, a few floaters stuck to the wall of the filter barrel 3 are blown off and are sucked into the collection box 17 through the adsorption pump 16.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a green rainwater collection device for building engineering which characterized in that: including base, collecting vessel, filter vat, rotary device, adsorption equipment, sedimentation bucket, precipitant bin and cleaning device, the base lower wall is equipped with the support, collecting vessel and sedimentation bucket all locate on the base, the sedimentation bucket is located collecting vessel one side, rotary device locates in the collecting vessel, the filter vat is located on the rotary device, adsorption equipment locates on the collecting vessel, be equipped with water delivery pump one on the sedimentation bucket, be equipped with raceway one between water delivery pump one and the sedimentation bucket, raceway one extends to in the sedimentation bucket, be equipped with raceway two between water delivery pump one and the collecting bucket, raceway two extends to in the filter vat, the precipitant bin is located on the sedimentation bucket, cleaning device locates in the sedimentation bucket.

2. The green rainwater collecting apparatus for construction engineering according to claim 1, wherein: the rotating device comprises a rotating motor protective shell and a rotating motor, the rotating motor protective shell is arranged on the inner bottom wall of the collecting box, the rotating motor is arranged in the rotating motor protective shell, and the filter barrel is arranged on an output shaft of the rotating motor.

3. The green rainwater collecting apparatus for construction engineering according to claim 2, wherein: the adsorption device comprises an adsorption pump, a collection box and an air blower, the adsorption pump is arranged on the collection barrel, a first adsorption tube is arranged between the adsorption pump and the collection barrel, the first adsorption tube extends into the filter barrel, an adsorption head is arranged on the first adsorption tube and is communicated with the first adsorption tube, multiple groups of adsorption heads are arranged on the collection barrel, a second adsorption tube is arranged on the collection barrel, the air blower is arranged on the collection barrel, a first air conveying pipe is arranged at the outlet of the air blower, a second air conveying pipe is arranged on the first air conveying pipe and extends into the collection barrel, the second air conveying pipe is located on two sides of the filter barrel, a blowing head is arranged on the second air conveying pipe and is communicated with the second air conveying pipe, and the blowing head is provided with multiple groups.

4. A green rainwater collection unit according to claim 3 and characterized in that: cleaning device is including clearance positive and negative motor, clearance lead screw, clearance guide bar and clearance board, the positive and negative motor of clearance is located on the precipitation bucket lateral wall, the clearance lead screw rotates and locates on the inner wall of precipitation bucket both sides, the output shaft of clearance lead screw and clearance positive and negative motor is connected, the clearance guide bar is located on the inner wall of precipitation bucket both sides, the clearance guide bar is located clearance lead screw top, the clearance board is located on the clearance lead screw through the screw thread, the clearance board slides and locates on the clearance guide bar, the diapire is tangent in clearance board and the precipitation bucket.

5. The green rainwater collecting apparatus for construction engineering according to claim 1, wherein: the sedimentation barrel is provided with a water delivery pump II, a water delivery pipe III is arranged between the water delivery pump II and the sedimentation barrel, the water delivery pipe III extends into the sedimentation barrel, and a water delivery pipe IV is arranged at a water inlet of the water delivery pump II.

6. A green rainwater collection unit according to claim 3 and characterized in that: and a water outlet pipe is arranged on the bottom wall of one side of the collecting box, and an electromagnetic control valve is arranged on the water outlet pipe.

7. The green rainwater collecting apparatus for construction engineering according to claim 1, wherein: the utility model discloses a precipitating tank, including precipitant bin, deposit pipe, add the pipe and be equipped with electromagnetic control valve, the articulated apron that is equipped with on the precipitant bin, be equipped with the handle on the apron, be equipped with on the precipitant bin and add the pipe and extend to in the sedimentation bucket, be equipped with electromagnetic control valve on the interpolation pipe.

8. The green rainwater collecting apparatus for construction engineering according to claim 1, wherein: and two ends of the bottom wall of the sedimentation barrel are provided with drain outlets, and the electromagnetic control valve is arranged on the drain outlets.

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