CN115215456B - Waste water recycling device for rope saw or water drill - Google Patents

Abstract

The invention discloses a wastewater recycling device for a rope saw or a water drill, which comprises a recycling box, a circulating pump, a first sedimentation baffle, a second sedimentation baffle, fastening bolts, a filtering grid and a cover plate. The wastewater flows into a first purifying area in the box body through a horizontal steering pipe, and flows through a first sedimentation baffle and a floater filtering grid along with the wastewater collection so as to carry out primary sludge sedimentation and blocking of fine floaters; the wastewater flows into the second purifying area and gradually flows through the second sedimentation baffle to carry out secondary sludge sedimentation, the usable wastewater with sludge and fine floaters filtered flows to the circulating water pump, and the circulating water pump is used for pumping the wastewater to the operating area through the hose with the meshes inside and outside the tank body and the water gun. The construction method has the advantages that the water resource waste caused by long running water in construction is avoided, the construction area and the corresponding lower floor are always in a dry state, the steel bars in the structure are prevented from being corroded, structural damage is caused, and the potential safety hazard of electricity consumption is eliminated.

Description

Waste water recycling device for rope saw or water drill

Technical Field

The invention relates to the field of building wastewater recovery, and further relates to a wastewater recovery and reuse device for a rope saw or a water drill.

Background

Over time, the old buildings are improved and the use functions are improved to be renovated and modified in most of the old buildings, wherein the old buildings are early in build-up period, lost in maintenance, lost in management, imperfect matched facilities and strong in resident transformation wish.

At present, a great deal of disassembly and improvement are needed to be carried out on the structure when the old building is renovated, and the common method for static disassembly of the structure is rope saw cutting and water drill punching. When the rope saw cuts and the water bores the perforation, a great amount of high temperature can be continuously generated on the cutting surface due to high-frequency friction, and in order to avoid the condition that the machines such as the rope saw, the water bores and the like are required to be watered and cooled all the time due to high-temperature burning during working, a great amount of wastewater is generated in a construction area.

Not only wasting a large amount of water resources, but also ensuring that the construction area and the corresponding lower floor are always in a ponding and soaking state, so that the steel bars in the structure are corroded, thereby causing structural damage; meanwhile, the wet and water spraying conditions bring great potential safety hazards to the construction electricity consumption of the adjacent work species.

Disclosure of Invention

Aiming at the technical problems, the invention aims to provide a wastewater recycling device for a rope saw or a water drill, which solves the technical problems of wastewater waste and steel bar corrosion caused by wastewater in the building construction process to cause damage to a building structure.

In order to achieve the above object, the present invention provides a wastewater recycling apparatus for a rope saw or a water drill, comprising:

the opening water receiving area of the water receiving mechanism is adjustable, and the water receiving mechanism is used for being attached to a building wall to receive wastewater in the construction process;

the water inlet pipeline is communicated with the water receiving mechanism, and a preliminary filtering structure and a buffer structure are arranged on the water inlet pipeline, so that wastewater flows through the preliminary filtering structure and the buffer structure and is subjected to preliminary filtering and the flow rate of the wastewater;

the recovery tank is communicated with the water inlet pipeline and is used for receiving the wastewater buffered by the water inlet pipeline, at least a first water purifying area and a second water purifying area are sequentially arranged in the recovery tank, and the wastewater sequentially flows through the first water purifying area and the second water purifying area to be purified;

and the circulating mechanism is arranged on the recovery box and is used for extracting and reutilizing the treated water.

In some embodiments, the water inlet pipeline is sequentially provided with a preliminary filtering structure and a buffer structure along the flowing water direction, and the wastewater flows through the buffer structure after the building cutting slag is filtered by the preliminary filtering structure so as to reduce the flow rate of the wastewater to a precipitable flow rate;

and water in the first water purifying area overflows to the second water purifying area.

In some embodiments, the water receiving mechanism comprises:

the chassis is provided with a water flowing hole and is communicated with the water inlet pipeline;

the adjusting disc is connected to the chassis and is used for receiving the wastewater and enabling the wastewater to flow onto the chassis;

the size of the opening of the adjusting disk is adjusted to adjust the water receiving area of the adjusting disk.

In some embodiments, the conditioning disk comprises

The adjusting pieces are adjustably connected to the chassis;

a deformable connecting piece, the connecting piece is arranged on the adjusting piece to form an adjusting disc, and the adjusting disc is communicated with the chassis so that wastewater flows onto the chassis along the adjusting disc;

the adjusting piece is adjusted to adjust the open area of the adjusting disk after opening.

In some embodiments, the adjusting member is a telescopic rod, and a fixed end of the telescopic rod is rotatably or fixedly connected to the chassis;

the receiving disc is of an annular structure, the outer edge of the receiving disc is detachably connected to the telescopic end of the telescopic rod, and the inner edge of the receiving disc extends to the inner surface of the chassis, so that wastewater flows onto the chassis along the receiving disc;

and the length of the telescopic rod is extended to extend the receiving tray and adjust the opening area of the receiving tray and/or the position of the telescopic rod is rotated to adjust the opening area of the receiving tray.

In some embodiments, the water receiving mechanism further comprises a drainage piece arranged on a part of the outer edge of the receiving tray, so that the drainage piece is attached to the outer surface of the wall column and used for guiding the wastewater to flow to the chassis;

the drainage piece is the water receiving flitch of adaptation with receiving dish outward flange, the water receiving flitch includes installation department and laminating portion, the installation department is used for installing the outward flange of receiving dish, laminating portion is used for laminating at the surface of wall post, laminating portion is the cushion.

In some embodiments, the water inlet pipeline comprises a vertical connecting pipe and a horizontal steering pipe, one end of the vertical connecting pipe is communicated with the chassis, the other end of the vertical connecting pipe is communicated with one end of the horizontal steering pipe, and the other end of the horizontal steering pipe is communicated with the first water purifying area of the recovery tank;

the primary filtering structure is detachably arranged in the vertical connecting pipe; the primary filtering structure is a filter screen;

the buffer structure is detachably arranged at the joint of the vertical connecting pipe and the horizontal steering pipe; the buffer structure is a water filtering buffer net.

In some embodiments, a slag removal structure is provided on the vertical connection tube adjacent to the preliminary filtration structure 28; the deslagging structure comprises a deslagging pipe and a cover detachably connected to one end of the deslagging pipe, the other end of the deslagging pipe is communicated with the vertical connecting pipe, the deslagging pipe is obliquely arranged, and the vertical height of the position, opposite to the joint of the lower part of the pipe orifice of the deslagging pipe in the vertical direction, of the preliminary filtering structure 28 is larger than or equal to the horizontal height of the lower part of the pipe orifice of the deslagging pipe;

and/or;

a buffer spiral is arranged in the horizontal steering pipe, and the buffer structure and the buffer spiral are sequentially arranged along the flow direction of water flow;

the horizontal steering tube comprises a vertical section and a horizontal section, the buffer spiral is arranged in the vertical section, and the buffer spiral is connected with the buffer structure so as to receive the wastewater buffered by the buffer structure.

In some embodiments, a first sedimentation baffle and a second sedimentation baffle are sequentially arranged on the recovery tank at intervals along the flow direction of the wastewater so as to sequentially divide the recovery tank into a first water purifying area, a second water purifying area and a collecting area along the flow direction of the wastewater;

the height of the first sedimentation baffle is higher than that of the second sedimentation baffle; the height of the first sedimentation baffle is higher than the horizontal height of the inlet when the water inlet pipeline enters the recovery tank, so that wastewater overflows to the second water purifying area along the upper end of the first sedimentation baffle and overflows to the collecting area along the upper end of the second sedimentation baffle.

In some embodiments, a filter grid is also connected to the first settling baffle to block floating flow to the second water purification zone;

the recovery box comprises a box body and a cover plate, the cover plate is detachably connected to the upper end of the box body, and the box body is divided into a first purification area, a second purification area and a collection area by the first precipitation baffle plate and the second precipitation baffle plate;

a drainage structure is communicated with the box body, and the drainage structure is communicated with the bottom of the recovery area;

the box body is also connected with a walking pushing frame and a dowel bar, the fixed end of the walking pushing frame is fixed on the side wall of the box body, which is far away from the water inlet pipeline, and the dowel bar is connected with the walking pushing frame and the side wall of the box body;

and a hanging piece for accommodating the water spraying mechanism and the pipeline is further arranged on the hand pushing frame.

And/or;

the circulating pump is arranged in the collecting area and is used for pumping the wastewater in the collecting area out of the box body;

the connecting pipe is connected with the water spraying mechanism and the circulating pump, and the water spraying mechanism is positioned outside the recovery box.

Compared with the prior art, the wastewater recycling device for the rope saw or the water drill has the following beneficial effects:

1. the wastewater recycling device for the rope saw or the water drill can be suitable for the disassembly and the modification of various newly built structure holes and old building structures. The construction method has the advantages that the water resource waste caused by long running water in construction is avoided, the construction area and the corresponding lower floor are always in a dry state, the steel bars in the structure are prevented from being corroded, structural damage is caused, and the potential safety hazard of electricity consumption is eliminated. Meanwhile, the device can completely realize the recycling of the wastewater during the cutting of the rope saw and the punching of the water drill, not only can filter the cutting slag, the sediment sludge and the fine floaters in the wastewater clean, but also can realize the integrated circulation of wastewater receiving and pumping.

2. The adjustable water receiving mechanism is arranged, so that the size of the water receiving area of the water receiving dustpan can be adjusted according to the size of the space, and the water receiving dustpan has wide application range. The device can realize purification and filtration without being damaged due to blockage of polluted matters of the circulating pump, has high frequency of repeated use, and has low investment and high cost performance; the cleaning can be performed only after the openable cover plate is opened, and the cleaning operation is simple, and the cleaning and maintenance are convenient; the vertical connecting pipe can be used for forming holes on various structural walls, columns, beams, plates and other components, can be used for adjusting the water receiving height by adding the vertical connecting pipe, is convenient to move, and greatly improves the operation efficiency.

3. The waste water recycling device for the rope saw and the water drill has reasonable structure, can realize waste water filtration, purification and recycling during structure cutting, accords with the concept of green construction and sustainable development, and can be widely used in the construction process of opening a new structure and dismantling and modifying an old building structure.

Drawings

The above features, technical features, advantages and implementation of the present invention will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clear and easily understood manner.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a top view of the interior of the wastewater tank according to the invention

FIG. 3 is a schematic diagram of an adjustable water receiving mechanism according to the present invention;

FIG. 4 is a top view of an adjustable water receiving mechanism according to the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 1 in accordance with the present invention;

fig. 6 is an enlarged view of section B of fig. 1 in accordance with the present invention.

Reference numerals illustrate:

1. a universal wheel; 2. a braking device; 3. a base; 4. fixing the pressing strip; 5. a case; 6. a drain tap; 7. a power supply control device; 8. a fixing member; 9. a hand pushing frame; 10. a dowel bar; 11. a hanging piece; 12. a water gun; 13. an outer mesh hose; 14. an anti-skid sleeve; 15. an inner mesh hose; 16. a circulation pump; 17. a second precipitation baffle; 18. a first precipitation baffle; 19. a fastening bolt; 20. a filter grid; 21. A hand-held device; 22. a cover plate; 23. a manual fastening device; 24. a seal ring; 25. a horizontal steering tube; 26. a buffer structure; 27. a vertical connecting pipe; 28. a preliminary filtering structure; 29. a telescopic rod; 30. a chassis; 31. a fixing cap; 32. fixing the buckle cover; 33. canvas; 34. a water receiving pasting board; 35. a fixing nut; 36. a slag discharging structure; 37. the spiral is buffered.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will explain the specific embodiments of the present invention with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the invention, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For simplicity of the drawing, only the parts relevant to the invention are schematically shown in each drawing, and they do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In this context, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, unless explicitly stated or limited otherwise; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In addition, in the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 6, the wastewater recycling apparatus for a rope saw or a water drill of the present invention includes: the device comprises a water receiving mechanism, a water inlet pipeline, a recovery box and a circulating mechanism, wherein in the specific use process, the water receiving area of an opening of the water receiving mechanism is adjustable and is used for being attached to a building wall to receive wastewater in the construction process; in the construction process, the water receiving mechanism is attached to the wall column to receive wastewater generated in the construction process; the water inlet pipeline is communicated with the water receiving mechanism, the recovery tank is communicated with the water inlet pipeline, and the wastewater reaches the recovery tank along the water receiving mechanism and the water inlet pipeline to be purified; in order to achieve better purification effect, a water inlet pipeline is provided with a preliminary filtering structure 28 and a buffer structure 26 on a water inlet passage, so that wastewater flows through the preliminary filtering structure 28 and the buffer structure 26 and is subjected to preliminary filtering and buffer to flow velocity of the wastewater respectively; the recovery tank is used for receiving the wastewater buffered by the water inlet pipeline, at least a first water purifying area and a second water purifying area are sequentially arranged in the recovery tank, and the wastewater sequentially flows through the first water purifying area and the second water purifying area to be purified; the circulating mechanism is arranged on the recovery box and is used for extracting and reutilizing the treated water.

It should be noted that, in this embodiment, the order in which the preliminary filtering structure 28 and the buffer structure 26 are installed along the water inlet pipe is not particularly limited; the preliminary filtering structure 28 can be installed first and then the buffer structure 26 can be installed, so that the broken slag in the building construction process in the wastewater can be filtered out so as not to block the water inlet pipeline; the filtered wastewater is buffered by the buffer mechanism to reduce the flow velocity of the water flow, so that the wastewater has a smaller velocity when flowing into the recovery tank, and the wastewater purification is facilitated. In addition, the buffer structure 26 is firstly arranged on the water inlet pipeline along the flowing direction and then the preliminary filtering mechanism is arranged, so that the received wastewater is buffered firstly, the wastewater is filtered through the preliminary filtering structure 28 after the flow rate of the wastewater is reduced, and when the buffered wastewater is subjected to preliminary filtering, the slag and the particulate matters in the wastewater can be better filtered, and the wastewater is further purified in the subsequent recovery tank.

Likewise, at least a first water purifying area and a second water purifying area are arranged in the recovery tank, the first water purifying area and the second water purifying area purify the wastewater flowing through the first water purifying area and the second water purifying area, in this embodiment, how the first water purifying area and the second water purifying area purify the wastewater is not particularly limited, and the number of times for purifying the wastewater is also not limited, in this embodiment, the first water purifying area and the second water purifying area are taken as examples only to illustrate that the wastewater is purified through the first water purifying area and the second water purifying area; the purified waste water can be directly pumped out by the circulating pump 16, or a region for collecting the purified waste water can be arranged in the recovery tank, but is not described in the embodiment.

In some embodiments, the water receiving mechanism comprises: the base plate 30 and the adjusting plate, wherein the base plate 30 is provided with a water flowing hole, and the base plate 30 is communicated with the water inlet pipeline; the adjusting disk is connected to the chassis 30 and is used for receiving the wastewater and enabling the wastewater to flow onto the chassis 30; the size of the opening of the adjusting disk is adjusted to adjust the water receiving area of the adjusting disk, and in the specific use process, the size of the area of the adjusting disk is adjusted to adapt to different use environments; the adjustment plate may adjust the opening area of the adjustment plate by adjusting the angle, or by extending the opening position of the adjustment plate to extend the opening edge position of the adjustment plate to the periphery, for example.

In a specific embodiment, the adjustment plate includes a plurality of adjustment members adjustably connected to the chassis 30 and a deformable connecting member; the deformable connecting piece is arranged on the adjusting piece to form an adjusting disc, and the adjusting disc is communicated with the chassis 30 so that wastewater flows onto the chassis 30 along the adjusting disc; in this embodiment, the adjusting disc is formed by assembling the adjusting disc with the connecting piece through the adjusting piece, the adjusting piece is connected to the chassis 30, the adjusting piece is rotatably connected to the outer wall of the edge of the chassis 30, and an exemplary adjusting piece may be a rod-shaped structure, one end of the rod-shaped structure is hinged to the chassis 30, and a locking structure for locking the position of the rod-shaped adjusting piece may be arranged on the chassis 30; in addition, one end of the adjusting piece is fixed on the outer wall of the edge of the chassis 30, and the other end of the adjusting piece is telescopic; the connecting piece can be an annular canvas 33, the outer edge of the annular canvas 33 is connected with one end of the adjusting piece far away from the chassis 30, and the inner edge of the annular canvas 33 is connected with the outer edge of the chassis 30; or the connecting piece is a canvas 33, the canvas 33 is connected between two adjacent adjusting pieces, and one end of the canvas 33 close to the chassis 30 is connected to the chassis 30; so that the attached adjustment plate forms a disc-like structure, whereas in the present embodiment the attachment is not limited to canvas 33, as long as the attachment is of a deformable, water-resistant material. The adjusting piece is adjusted to adjust the opening area of the adjusting disc after opening.

As shown in fig. 1 and 3-4, the adjusting member is a telescopic rod 29, and a fixed end of the telescopic rod 29 is rotatably or fixedly connected to the chassis 30; the connecting piece is a receiving disc, the receiving disc is of an annular structure, the outer edge of the receiving disc is detachably connected to the telescopic end of the telescopic rod 29, and the inner edge of the receiving disc extends to the inner surface of the chassis 30, so that wastewater flows onto the chassis 30 along the receiving disc; it should be explained that the outer rim of the receiving tray is the outer rim and the inner rim of the receiving tray is the inner rim; the length of the telescopic rod 29 is extended to extend the receiving pan and adjust the open area of the receiving pan and/or the position of the telescopic rod 29 is rotated to adjust the open area of the receiving pan. In this embodiment, the connection between the telescopic rod 29 and the chassis 30 is fixed connection, the receiving disc is a canvas 33, a through hole is formed in the middle of the canvas 33, so that the canvas 33 forms an annular structure, the outer edge of the waterproof canvas 33 is fixed on one end surface of the telescopic rod 29 far away from the chassis 30 through a fixing cap 31 and a fixing buckle cover 32, the change of the water receiving area of the waterproof canvas 33 is realized by adjusting the length of the telescopic rod 29, a drainage piece is arranged on the outermost telescopic rod 29 through the fixing cap 31 and the fixing buckle cover 32, and is arranged on part of the outer edge of the receiving disc, so that the drainage piece is attached to the outer surface of a wall column in the construction process and is used for guiding waste water to the chassis 30; the drainage piece is the water receiving flitch 34 with receiving dish outward flange looks adaptation, and waterproof canvas 33 upper surface is hugged closely to water receiving flitch 34, and water receiving flitch 34 includes installation department and laminating portion, and the installation department is used for installing at the outward flange of receiving the dish, and laminating portion is used for laminating at the surface of wall post, and laminating portion is the cushion. The water receiving attaching plate 34 can be attached to the wall column through the front rubber pad without any gap, and the waste water flowing down the wall column is led to the waterproof canvas 33.

Referring to fig. 1, in a specific embodiment, a preliminary filtering structure 28 and a buffer structure 26 are sequentially arranged on the water inlet pipeline along the flowing direction, and the wastewater is filtered by the preliminary filtering structure 28 to remove building cutting residues, and then flows through the buffer structure 26 to reduce the flow rate of the wastewater to a precipitable flow rate; the water inlet pipeline comprises a vertical connecting pipe 27 and a horizontal steering pipe, one end of the vertical connecting pipe 27 is communicated with the chassis 30, the other end of the vertical connecting pipe 27 is communicated with one end of the horizontal steering pipe, and the other end of the horizontal steering pipe is communicated with a first water purifying area of the recovery tank; the primary filtering structure 28 is detachably arranged in the vertical connecting pipe 27; the periphery of the preliminary filtering structure 28 is attached to the inner wall of the vertical connecting pipe 27 so as to prevent the wastewater from flowing along the preliminary filtering structure 28 and the inner wall of the vertical connecting pipe 27; simultaneously, cutting scraps are prevented from flowing into the box body 5;

the buffer structure 26 is detachably arranged at the joint of the vertical connecting pipe 27 and the horizontal steering pipe 25; the preliminary filtering structure 28 is a filter screen; the buffer structure 26 is a water filtering buffer net, and in specific implementation, the flange plate on the vertical connecting pipe 27 is connected with the chassis 30 through the fastening bolts 19, the lower flange plate of the vertical connecting pipe 27 is connected with the upper flange plate of the horizontal steering pipe 25 through the fastening bolts 19, and the water filtering buffer net is embedded in the joint. Slowing down the flow rate of the wastewater, and ensuring the precipitation effect of the first purification area and the second purification area in the box body 5; the lower flange of the horizontal steering tube 25 is connected with the box body 5 through the fastening bolts 19, and the sealing rings 24 are embedded in joints to ensure the water tightness of the box body 5.

Further, in order to prevent the preliminary filtering structure 28 from being blocked during the preliminary filtering, a through hole is formed in the position, close to the preliminary filtering structure 28, of the vertical connecting pipe 27, a slag discharging structure 36 is communicated with the position of the through hole, the slag discharging structure 36 consists of a slag discharging pipe and a cover for blocking the slag discharging pipe, the inner edge of one end, far away from the cover, of the slag discharging pipe is connected with the edge of the through hole, and in specific implementation, the slag discharging pipe can be connected with the vertical connecting pipe 27 in a welding mode; the slag discharging pipe is arranged in an inclined way so as to be beneficial to the accumulation of the slag at one end of the slag discharging pipe connected with the cover so as to be beneficial to the discharge of the slag, and in addition, in order to achieve better slag discharging effect, the primary filtering structure 28 is partially connected with the lower part of the through hole on the side wall of the vertical connecting pipe 27; it should be noted that, on the side wall of the vertical connection pipe 27, the lowest part of the vertical height of the through hole is called a low part; the vertical height of the position of the preliminary filtering structure 28 opposite to the position of the joint of the through holes is larger than or equal to the vertical height of the joint of the preliminary filtering structure 28 and the through holes, that is, the preliminary filtering structure 28 is horizontally arranged or obliquely arranged, and the oblique direction is consistent with the oblique direction of the slag discharging pipe.

Similarly, the preliminary filtering structure 28 is still a filtering net, and if the vertical connecting pipe 27 is a square pipe, the filtering net is square adapted to the inside of the vertical connecting pipe 27; if the vertical connecting pipe 27 is circular, the filter screen is of a circular structure matched with the vertical connecting pipe 27. In this embodiment, the lowest level of the preliminary filtering structure 28 is not lower than the level of the through hole. In the implementation process, if the preliminary filtering structure 28 is horizontally arranged, on one hand, the wastewater is filtered through the preliminary filtering structure 28, and meanwhile, the slag on the surface of the preliminary filtering structure 28 is washed away, so that the preliminary filtering structure 28 is not blocked; if the preliminary filtering structure 28 is obliquely arranged, the slag is more beneficial to entering the slag discharging pipe, and the filtering of the wastewater is not affected even if the wastewater flows into the vertical connecting pipe 27.

In order to achieve a better buffering effect on water flow, a buffer screw 37 is further arranged in the horizontal steering tube 25, the buffer screw 37 is located below the buffer structure 26 to receive the water flow buffered by the buffer structure 26, buffer the buffered wastewater further and reduce the flow rate of the wastewater, and the buffer screw 37 is of a spiral structure as shown in fig. 1, so that the flow rate of the water flow is reduced by continuously changing the flow direction of the water flow in the process of the water flow.

In one embodiment, referring to fig. 1-2, a first sedimentation baffle 18 and a second sedimentation baffle 17 are sequentially arranged on the recovery tank at intervals along the flow direction of the wastewater so as to sequentially divide the recovery tank into a first water purifying area, a second water purifying area and a collecting area along the flow direction of the wastewater; the height of the first sedimentation baffle 18 is higher than the height of the second sedimentation baffle 17; the height of the first sedimentation baffle 18 is higher than the level of the inlet when the water inlet pipeline enters the recovery tank, so that the wastewater overflows to the second water purifying area along the upper end of the first sedimentation baffle 18 and overflows to the collecting area along the upper end of the second sedimentation baffle 17.

In specific implementation, the recovery box comprises a box body 5 and a cover plate 22, the cover plate 22 is detachably connected to the upper end of the box body 5, and in specific implementation, the cover plate 22 and the box body 5 are fixedly connected through a manual fastening device 23 (as shown in fig. 6), and the interior of the box body 5 is divided into a first purification area, a second purification area and a collection area by a first precipitation baffle 18 and a second precipitation baffle 17; the first sedimentation baffle 18 is also connected with a filter grid 20 (shown in fig. 5) through a fastening bolt 19 so as to block the floating material from flowing to the second water purifying area; performing primary sludge precipitation and blocking of fine floaters; the wastewater flows into the secondary sedimentation tank and gradually flows through the second sedimentation baffle 17 to carry out secondary sludge sedimentation, so that the available wastewater with sludge and fine floaters filtered out flows to the circulating pump 16, and the circulating mechanism comprises the circulating pump 16, a connecting pipe and a water spraying mechanism, wherein the circulating pump 16 is arranged in the collecting area and is used for pumping the wastewater in the collecting area out of the tank body 5; the connecting pipe is connected with the water spraying mechanism and the circulating pump 16, the water spraying mechanism is positioned outside the recovery box, the connecting pipe comprises an inner mesh hose 15 and an outer mesh hose 13 which are respectively arranged inside and outside the box body 5, the inner mesh hose 15 is communicated with the outer mesh hose 13, specifically, one end of the inner mesh hose 15 is communicated with the circulating pump 16, and the other end of the inner mesh hose 15 penetrates through the side wall of the box body 5 to the outside of the box body 5 and is communicated with one end of the outer mesh hose 13; the other end of the outer net hose 13 is connected with a water spraying mechanism which is a water gun 12.

When the device specifically works, the power supply control device 7 is arranged on the outer wall of the box body 5, the water pump is controlled to be started and stopped, and the power supply control device 7 controls the circulating pump 16 to pump the wastewater in the collection area in the box body 5 to the operation area through the outer net hose 13 and the water gun 12. The box body 5 is communicated with a drainage structure which is communicated with the bottom of the recovery area; in specific implementation, the drainage structure is a drainage faucet 6, and when not in use, a switch of the drainage faucet 6 below can be opened to empty redundant usable wastewater, so that the circulating pump 16 is ensured to be in a dry environment. Simultaneously, the openable cover plate 22 is removed by the hand-held device 21 after the manual fastening device 23 is separated from the fixing nut 35, so that the waste water, the sludge and the fine floaters in the secondary sedimentation tank in the box body 5 are cleaned.

In some embodiments, as shown in fig. 1, the box 5 is further connected with a walking frame 9 and a dowel bar 10, the fixed end of the walking frame 9 is fixed on the side wall of the box 5 far away from the water inlet pipeline through a fixing piece 8, and the dowel bar 10 is connected with the walking frame 9 and the side wall of the box 5; the hand pushing frame 9 is also provided with a hanging piece 11 for accommodating a water spraying mechanism and a pipeline. Specifically, the movable base 3 is divided into a universal wheel 1, a braking device 2, a base 3 and a fixed pressing strip 4; the universal wheel 1 is fixed on the base 3 by the fastening bolt 19, and the universal wheel 1 is locked by the braking device 2, so that the water receiving attaching plate 34 on the telescopic water receiving dustpan can be attached to the wall column in a seamless manner; the nail fixing depression bar 4 is fully nailed around the junction of the box body 5 and the base 3, so that the box body 5 is prevented from shifting during walking.

The hand pushing frame device comprises a hand pushing frame 9, a dowel bar 10, a hanging piece 11, a water gun 12, a box body 5 outer net hose 13 and an anti-skid sleeve 14; the hand-held anti-skid sleeve 14 pushes the hand-pushing frame 9 to drive the movable base 3 to move through the dowel bar 10. Four pendants 11 are welded on the inclined middle upper side of the hand pushing frame 9, the outer net hose 13 of the box body 5 connected to the upper water draining faucet 6 can be wound on the pendants 11, and the length of the outer net hose 13 of the box body 5 can be adjusted according to the operation height when the hand pushing frame is used, so that the movable water gun 12 is convenient to operate.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (9)

1. A wastewater recycling apparatus for a rope saw or water drill, comprising:

the opening water receiving area of the water receiving mechanism is adjustable, and the water receiving mechanism is used for being attached to a building wall to receive wastewater in the construction process;

the water inlet pipeline is communicated with the water receiving mechanism, and a preliminary filtering structure and a buffer structure are arranged on the water inlet pipeline, so that wastewater flows through the preliminary filtering structure and the buffer structure and is subjected to preliminary filtering and the flow rate of the wastewater;

the water inlet pipeline comprises a vertical connecting pipe and a horizontal steering pipe, and the primary filtering structure is detachably arranged in the vertical connecting pipe; the primary filtering structure is a filter screen; the primary filtering structure is obliquely arranged, and a slag discharging structure is arranged on the vertical connecting pipe and close to the primary filtering structure;

the buffer structure is detachably arranged at the joint of the vertical connecting pipe and the horizontal steering pipe; the buffer structure is a water filtering buffer net, a buffer spiral is arranged in the horizontal steering pipe, and the buffer structure and the buffer spiral are sequentially arranged along the flow direction of water flow;

the recovery tank is communicated with the water inlet pipeline and is used for receiving the wastewater buffered by the water inlet pipeline, at least a first water purifying area and a second water purifying area are sequentially arranged in the recovery tank, and the wastewater sequentially flows through the first water purifying area and the second water purifying area to be purified;

and the circulating mechanism is arranged on the recovery box and is used for extracting and reutilizing the treated water.

2. A wastewater recycling apparatus for a rope saw or a water drill according to claim 1, wherein,

the water inlet pipeline is sequentially provided with a preliminary filtering structure and a buffer structure along the flowing water direction, and the wastewater is filtered by the preliminary filtering structure, cut and crushed slag of a building and then flows through the buffer structure so as to reduce the flow rate of the wastewater to a precipitable flow rate;

and water in the first water purifying area overflows to the second water purifying area.

3. A wastewater reclamation device for a rope saw or a water drill according to claim 1 or 2, wherein the water receiving mechanism comprises:

the chassis is provided with a water flowing hole and is communicated with the water inlet pipeline;

the adjusting disc is connected to the chassis and is used for receiving wastewater and enabling the wastewater to flow to the chassis;

the size of the opening of the adjusting disk is adjusted to adjust the water receiving area of the adjusting disk.

4. A wastewater reclamation device for a rope saw or a water drill as recited in claim 3, wherein the adjustment plate comprises

The adjusting pieces are adjustably connected to the chassis;

the deformable connecting piece is arranged on the adjusting piece to form an adjusting disc, and the adjusting disc is communicated with the chassis so that wastewater flows onto the chassis along the adjusting disc;

the adjusting piece is adjusted to adjust the open area of the adjusting disk after opening.

5. A wastewater recycling apparatus for a rope saw or a water drill according to claim 4, wherein,

the adjusting piece is a telescopic rod, and the fixed end of the telescopic rod can be rotated or fixedly connected to the chassis;

the connecting piece is a receiving disc, the receiving disc is of an annular structure, the outer edge of the receiving disc is detachably connected with the telescopic end of the telescopic rod, and the inner edge of the receiving disc extends to the inner surface of the chassis, so that wastewater flows onto the chassis along the receiving disc;

and the length of the telescopic rod is extended to extend the receiving tray and adjust the opening area of the receiving tray and/or the position of the telescopic rod is rotated to adjust the opening area of the receiving tray.

6. A wastewater recycling apparatus for a rope saw or a water drill according to claim 5, wherein,

the water receiving mechanism further comprises a drainage piece, wherein the drainage piece is arranged on the outer edge of part of the receiving disc, so that the drainage piece is attached to the outer surface of the wall column and used for guiding the wastewater to flow to the chassis;

the drainage piece is the water receiving flitch of adaptation with receiving dish outward flange, the water receiving flitch includes installation department and laminating portion, the installation department is used for installing the outward flange of receiving dish, laminating portion is used for laminating at the surface of wall post, laminating portion is the cushion.

7. A wastewater recycling apparatus for a rope saw or a water drill according to claim 1, wherein,

the horizontal steering tube comprises a vertical section and a horizontal section, the buffer spiral is arranged in the vertical section, and the buffer spiral is connected with the buffer structure so as to receive the wastewater buffered by the buffer structure.

8. The wastewater recycling apparatus for a rope saw or a water drill according to claim 1, wherein:

a first sedimentation baffle and a second sedimentation baffle are sequentially arranged on the recovery tank at intervals along the flow direction of the wastewater so as to sequentially divide the recovery tank into a first water purifying area, a second water purifying area and a collecting area along the flow direction of the wastewater;

the height of the first sedimentation baffle is higher than that of the second sedimentation baffle; the height of the first sedimentation baffle is higher than the horizontal height of the inlet when the water inlet pipeline enters the recovery tank, so that wastewater overflows to the second water purifying area along the upper end of the first sedimentation baffle and overflows to the collecting area along the upper end of the second sedimentation baffle.

9. The wastewater recycling apparatus for a rope saw or a water drill according to claim 8, wherein:

a filter grid is further connected to the first sedimentation baffle to block floating flow to the second water purification area;

the recovery box comprises a box body and a cover plate, the cover plate is detachably connected to the upper end of the box body, and the box body is divided into a first purification area, a second purification area and a collection area by the first precipitation baffle plate and the second precipitation baffle plate;

the box body is communicated with a drainage structure, and the drainage structure is communicated with the bottom of the recovery area;

the box body is also connected with a walking pushing frame and a dowel bar, the fixed end of the walking pushing frame is fixed on the side wall of the box body, which is far away from the water inlet pipeline, and the dowel bar is connected with the walking pushing frame and the side wall of the box body;

a hanging piece for accommodating the water spraying mechanism and the pipeline is further arranged on the hand pushing frame;

and/or;

the circulation mechanism includes:

the circulating pump is arranged in the collecting area and is used for pumping the wastewater in the collecting area out of the box body;

the connecting pipe is connected with the water spraying mechanism and the circulating pump, and the water spraying mechanism is positioned outside the recovery box.